ChemTEB Classification Datasets
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Chemical Classification Datasets for Evaluating Text Embedding Models
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Leng grew up in Scarborough, North Yorkshire. She spent her childhood on the cliffs and beaches of the Lower Jurassic. Leng studied geology for GCSE and A Level. At Sixth Form College she took a field trip to Ravenscar and described finding an ammonite which hooked her into geology. She studied for a BSc in Earth Science at Oxford Polytechnic, gained her PhD at Aberystwyth University in 1990, then moved to the British Geological Survey to work in the isotope laboratory. | 1 | Geochemists |
* The Chemical Elements and their Compounds (Macmillan, 1927)
* The Fundamentals of Chemical Thermodynamics (Macmillan, 1928)
* Man is a Microcosm (The Scientific Book Club, UK, 1950)
* Electrical Phenomena at Interfaces, in Chemistry, Physics and Biology (Methuen, 1951)
* Inside the Living Cell - some Secrets of Life (The Scientific Book Club, UK, 1957)
* Science and Human Life: Successes and Limitations (Pergamon, 1957)
* Gene Control in the Living Cell (Allen & Unwin, 1968)
* The Life Process (Allen & Unwin, 1970)
* Modern Biology and Its Human Implications (Hodder and Stoughton, 1976) | 2 | Electrochemists |
Hornbrook is active in international projects that work to understand the atmosphere in a variety of locations. Hornbrook was a part of the 2016 ORCAS campaign by assisting with measuring TOGA reactive gases in the airborne study over the Southern Ocean. The study took a look at carbon dioxide and oxygen's behavior interacting with the Southern Ocean which is one of the most remote oceans on the planet. At the 2016 International Global Atmospheric Chemistry meeting, Hornbrook gave a poster presentation regarding the findings of the ORCAS project specific to VOC observations.
In the early part of 2012, Hornbrook began to work on the TORERO campaign in order to study reactive halogen gases and VOCs in the Tropical Eastern Pacific Ocean. The study was an airborne campaign which took data at various altitudes in order to learn more about atmospheric oxidization capacities at differing altitudes in tropical regions. Hornbrook's contributions to the project increased the understanding of VOCs in the studied area off of the South American Coast. Hornbrook continued to work to understand the atmosphere in tropical locations. The 2014 CONTRAST took place in Guam with the goal of learning how convection in a tropical setting can effect the movement of atmospheric gases. | 3 | Atmospheric Chemists |
Veerabhadran "Ram" Ramanathan (born 24 November 1944) is Edward A. Frieman Endowed Presidential Chair in Climate Sustainability Scripps Institution of Oceanography, University of California, San Diego. He has contributed to many areas of the atmospheric and climate sciences including developments to general circulation models, atmospheric chemistry, and radiative transfer. He has been a part of major projects such as the Indian Ocean Experiment (INDOEX) and the Earth Radiation Budget Experiment (ERBE), and is known for his contributions to the areas of climate physics, Climate Change and atmospheric aerosols research. He is now the Chair of Bending the Curve: Climate Change Solutions education project of University of California. He has received numerous awards, and is a member of the US National Academy of Sciences. He has spoken about the topic of global warming, and written that "the effect of greenhouse gases on global warming is, in my opinion, the most important environmental issue facing the world today."
Due to his close affiliation with Pope Francis, Ramanathan has been described as "The Popes climate scientist". He was influential in the creation of Laudato si, the Pope's encyclical on climate change. | 3 | Atmospheric Chemists |
One of her former students from her time in Japan, the Spanish ambassador created the Vicenta Arnal Prize in her honor for graduating students of the Instituto Beatriz Galindo, and in recent years his son has continued to award the prize.
In March 2019, the city of Zaragoza proposed changing the name of a street from Calle Rudesindo Nasarre Ariño to Calle Jenara Vicenta Arnal Yarza in her honor, in an effort to recognize the contributions of four notable women from that city and to comply with the Historical Memory Law. The plan was cancelled in September of that year. | 2 | Electrochemists |
Manfred Schidlowski was born in Stettin on 13 November 1933. His family left his homeland during the Second World War and moved to Greifswald. From 1952-1955 he studied at the Humboldt University of Berlin, and from 1956 at the Free University of Berlin, where he received his diploma in geology in 1960 and one year later his doctorate with the "Contribution to the Geology of the Eastern Alps between the Small Walser Valley and the Upper Lech (Vorarlberg, Austria)". His desire for a change in geoscientific content led him to South Africa, first as a postdoctoral researcher at the University of Pretoria and then as a mine geologist for the Anglo-Transvaal Consolidated Investment Co. Ltd. at the Loraine Gold Mine to Allanridge in the Orange Free State. In 1962 he met his future wife Ingrid Piegler, a great-great-granddaughter of Heinrich Gottfried Piegler, he married her in 1964.
Scientifically, he worked on the mineralogy of the gold-bearing Witwatersrand sequence. The discovery of detrital, i.e. sedimentary rearranged pyrites and uraninites as well as the frequently occurring carbonaceous material in these layers founded his scientific interest in the early evolution of the Earth and provided the data for his first Nature publication in 1965 with the title "Probable Life-forms from the Precambrian of the Witwatersrand System (South Africa)".
In 1963 Schidlowski returned to Germany to work on the ores of the Witwatersrand succession in Paul Ramdohrs group in the Heidelberg. Here the idea of a relationship between the presence of detrital pyrites and the oxygen content of the Earths atmosphere was born. He spent the years 1965-1967 at the University of Göttingen. Evidence for a biological origin of the carbonaceous material in the Witwatersrand sediments was consolidated during this time by carbon isotope investigations in cooperation with Jochen Hoefs. Afterwards, Schidlowski habilitated at the University of Heidelberg. In 1969 he moved to the newly founded Institute for Air Chemistry at the Max Planck Institute for Chemistry in Mainz in 1969. Its director, Christian Junge, sent him back to South Africa on a large sampling campaign. The focus was on the carbonates of early Earth history as archives of ocean-atmosphere evolution. Among these were carbonates of the Lomagundi succession from Rhodesia (now Zimbabwe) with their unusually positive carbon isotopy. Initially classified as a local feature, it quickly became clear that this was a global phenomenon, one of the most massive changes in global carbon cycle. There is still intense debate about the reasons for this global phenomenon, the basis of which was researched by him. His 1976 publication on this subject (Schidlowski et al., Geochim.Cosmochim. Acta 40: 449-455) is still cited several times in 2012. The move to the Max Planck Institute set the course for Schidlowski's future scientific career: research into the Earth system during the Precambrian. The time in Mainz was interrupted by stays at Harvard University, the University of California Los Angeles and the Weizman Institute in Rehovot, Israel.
From 1979 to 1989, he was chairman of the UNESCO-sponsored IGCP Project 157 (Early Organic Evolution and Mineral and Energy Resources). He established close contacts with geological and geochemical research centres such as the institutes of the Academy of Sciences of the USSR, the Academia Sinica (Lanzhou, Beijing). Since 1996, he was a member of the exobiology science team of the European Space Agency (ESA). He spent his scientific life researching the development of the atmosphere, the ocean and life on the early Earth. He wrote more than 100 scientific papers in journals and book chapters as well as edited special volumes and books on the topic of the early development of the Earth system.
Schidlowski retired in 1998. In 2005 he moved with his wife to Altusried. Here he died on October 3, 2012. | 1 | Geochemists |
* Secretary/Treasurer of the International Society of Electrochemistry (1964–1967)
* President of the International Society of Electrochemistry (1973–1974)
* Electrochemistry and Thermodynamics Medal of the Royal Society of Chemistry (1979)
* Fellowship of the Royal Society (1985)
* Olin Palladium Medal of the Electrochemical Society (1986) | 2 | Electrochemists |
During the fifties and early sixties, Pourbaix and his collaborators produced potential-pH diagrams for all the elements and published the "Atlas of Electrochemical Equilibria" in French in 1963 and in English in 1966. As early as in 1962, he introduced the concept of a protection potential against the propagation of localized corrosion, which he developed in 1963, in relation with the peculiar electrochemical conditions in occluded electrochemical cells. Pourbaix doctoral thesis had a major influence on corrosion science. Ulick R. Evans found this work important and arranged for an English translation, published by Arnold (London) in 1949. In 1949, he was one of the founders of CITCE (Comite International de Thermodynamique et Cinetique Electrochimiques) together with 13 other electrochemists: C.Boute, J.Gillis, A. Julliard (Belgium), P. Delahay, P.Van Rysselberghe (USA), J.OM.Bockris, T.P.Hoar (UK), G.Charlot, G.Valensi (France), R.Piontelli (Italy), G.Burgers (The Netherlands) and J.Heyrovsky (Czechoslovakia). CITCE was a success. In 1971 the name was changed to International Society of Electrochemistry (ISE). The current membership is over 1100 with members from 59 countries. In 1951 he founded CEBELCOR, which became one of the world's first centres dedicated to the theoretical and experimental study of corrosion phenomena. In 1952 Pourbaix founded the Commission of Electrochemistry of the International Union of Pure and Applied Chemistry (IUPAC) and that Commission clarified in 1953 the chaotic state of affairs then prevailing in the signs of electrode potentials.
He was an international collaborator in combating corrosion, visiting and lecturing widely during his career. He contributed actively to the creation of an International Corrosion Council (ICC) with the aim of encouraging research and international cooperation in corrosion science and engineering and friendship among scientists and engineers. In 1990, The National Association of Corrosion Engineers (NACE) created a "Marcel Pourbaix Award Student Fellowship" and the ICC created in 1996 a "Marcel Pourbaix Award for International Cooperation." He was a published author of various papers in addition to his atlas.
Pourbaix worked on the "Atlas of Chemical and Electrochemical Equilibria in the Presence of a Gas Phase," a work that covers an even wider field than the Atlas in aqueous solutions. Marcel Pourbaix was founder, honorary director and scientific adviser of CEBELCOR (Belgian Center for Corrosion Study), Professor at the Universite Libre de Bruxelles, co-founder of CITCE, former chairman of the Commission of Electrochemistry of IUPAC (1952), of ICC (1969), member of the Advisory Committee of Electrochimica Acta (1959-1972) and of the Executive Board of Corrosion Science. | 2 | Electrochemists |
Meibom obtained a PhD in physics at the University of Southern Denmark in 1997. He then pursued a two-and-a-half-year postdoc at the Hawaii Institute for Geophysics and Planetology where he studied the mineralogy of primitive chondrotic meteorites. In 2000, he moved to Stanford University as a research associate in the Stanford-USGS ion microprobe laboratory, department of geological and environmental sciences. In 2005, he was appointed as an associate professor at the Museum National d’Histoire Naturelle in Paris, where he was promoted to full professor in 2007. From 2006 to 2011, he served as the director of the French National NanoSIMS analytical facility. In 2012, he was named full professor at the EPFL (École Polytechnique Fédérale de Lausanne) in the School of Architecture, Civil and Environmental Engineering (ENAC). He has also been full professor ad personam at the University of Lausanne since 2014. From 2015 to 2017, he was the director of the Institute of Environmental Engineering at EPFL.
In 2019, Meibom founded the Transnational Red Sea Center (TRSC), an initiative for scientific diplomacy supported by the Swiss Federal Department of Foreign Affairs and which aims to promote scientific collaboration in a politically unstable region endowed with fundamental ecological stakes. | 1 | Geochemists |
Buccianti was the 2003 winner of the Felix Chayes Prize of the International Association for Mathematical Geosciences. | 1 | Geochemists |
Dessler and Edward Parson co-authored, The Science and Politics of Global Climate Change: A Guide to the Debate in 2006 (2nd ed. 2009). It was described as, "a fascinating hybrid of science and policy directed at a broad or nonspecialist audience" by Wendy Gordon in a 2008 review in Eos. Gordons review was positive concluding, "I could comfortably recommend this book to friend and colleagues." and that it would be "an excellent resource for a high school of college-level survey course in either environmental studies or public policy." It also received a favorable review in the Bulletin of the American Meteorological Society by Paul Higgins. Higgins noted the books, "careful reasoning and thoughtful presentation" and stated it was a sound guide to the climate change debate. Concluding a generally positive review Randall Wigle writing in Canadian Public Policy stated, "...I believe it is a good candidate for a primer for multidisciplinary classes devoted to climate change policy, but it would have been an even better one with less advocacy of one side of the argument." Maria Ivanova wrote in Global Environmental Politics that the books scholarly value was indisputable. Writing in New Scientist in 2006 Adrian Barnett said, "Free copies should be shipped to anyone who doubts the reality of climate change, starting with presidents in denial." The book also received very positive reviews in Chromatographia, the Times Higher Education Supplement (THES) and Environmental Sciences'.
In 2012 Dessler wrote Introduction to Modern Climate Change "a textbook for non-science majors that uniquely immerses the reader in the science, impacts, economics, policies and political debate associated with climate change." It received an award from the American Meteorological Society in 2014. It was favorably reviewed by Cameron Reed in Physics & Society who said, "The writing is clear, has a nice balance of formal and informal prose, and includes occasional elements of dry humor to lighten discussions of otherwise very serious issues." It is used in classes in environmental sciences and the science and policy of climate change. | 3 | Atmospheric Chemists |
Bharat has been awarded many prizes and fellowships. These include a 2018 Vallee Research Scholarship, the 2019 EMBL John Kendrew Award the 2020 Philip Leverhulme Prize for Biological Sciences, the 2021 Eppendorf Award for Young European Investigators, and the 2021 Lister Prize, the 2022 Colworth Medal from the Biochemical Society and the 2023 Fleming Prize from the Microbiology Society. | 0 | Biochemists |
Amit Keren received his B.Sc. in Physics and Mathematic in 1986 from Tel Aviv University, his doctorate in 1994 from Columbia University under the supervision of Tomo Uemura, and was a postdoctoral fellow at Orsay University Paris, under the supervisor of Henry Alloul until 1997. | 2 | Electrochemists |
Vonnegut was born in Indianapolis, Indiana to architect Kurt Vonnegut Sr (November 24, 1884 – October 1, 1957), a partner in the firm of Vonnegut, Wright & Yeager, and homemaker Edith Sophia Lieber (d. May 14, 1944). He was named after his grandfather, architect Bernard Vonnegut Sr, co-founder of the firm of Vonnegut & Bohn. He attended Park School in Indianapolis and earned a B.S. in chemistry (1936) and Ph.D. in physical chemistry (1939) from Massachusetts Institute of Technology. | 3 | Atmospheric Chemists |
Chan King-ming is a Hong Kong politician and academic. He served as the vice-chairman of the Democratic Party of Hong Kong from 2004 to 2006. He is also an associate professor in the department of biochemistry and Environmental Science Program of the Chinese University of Hong Kong. | 0 | Biochemists |
Jingdong Zhang (June 2, 1968 – January 09, 2020) was a Chinese–Danish chemist and Professor of Chemistry at the Technical University of Denmark. Her research considered nanochemistry and the novel materials for catalysis, as well as the development of advanced characterisation techniques such as scanning tunnelling microscopy and atomic force microscopy. She was elected to the Akademiet for de Tekniske Videnskaber in 2017. | 2 | Electrochemists |
In addition to the MacArthur Award, Bond is the recipient of the National Science Foundation CAREER Grant, and the Nauman Faculty Scholar Award. She has also received the Xerox Faculty award and the Center for Advanced Study at the University of Illinois fellowship.
In 2015, she was named a Fellow of the American Geophysical Union and was an ISI Highly Cited Researcher.
In 2017, she was granted the Outstanding Publication Award by the American Association for Aerosol Research.
In 2018, the University of Washington honored Bond with a Diamond Award for Distinguished Achievement in Academia. | 3 | Atmospheric Chemists |
* 1970: Peter Goldacre Award from the Australian Society of Plant Scientists (previously called the Australian Society of Plant Physiologists).
* 1980: Charles F Kettering Award from the American Society of Plant Physiologists, shared with Hugo Kortschak and Marshall (Hal) Davidson Hatch.
* 1981: Rank Prize for Nutrition, shared with Hugo Kortschak and Marshall (Hal) Davidson Hatch.
* 1983: Elected as a Fellow of the Royal Society of New Zealand.
* 1989: Elected as a Fellow of the Royal Society. | 0 | Biochemists |
Joanna V. Clark is an American geoscientist working for Geocontrols Systems Inc on the JETS Contract at NASA Johnson Space Center. She is collaborator on the Sample Analysis at Mars (SAM) and Mars Science Lab (MSL) science teams. Her research includes oxychlorines, chlorides, phyllosilicates, manganese oxides and has also been involved with martian simulant development for In-Situ Resource Utilization. | 1 | Geochemists |
George N. Phillips Jr. is a biochemist, researcher, and academic. He is the Ralph and Dorothy Looney Professor of Biochemistry and Cell Biology at Rice University, where he also serves as Associate Dean for Research at the Wiess School of Natural Sciences and as a professor of chemistry. Additionally, he holds the title of professor emeritus of biochemistry at the University of Wisconsin-Madison.
Phillips research is primarily centered on protein structure, protein dynamics, and computational biology, with a specific emphasis on understanding the correlation between the dynamics of proteins and their biological functions. He has authored book chapters, and is an editor for the Handbook of Proteins: Structure, Function and Methods Volume 2. He is the recipient of the Arnold O. Beckman Research Award, the American Heart Associations Established Investigator Award, and the Vilas Associate Award.
Phillips is an Elected Fellow of the Biophysical Society, the American Crystallographic Association, and the American Association for the Advancement of Science. He served as president and vice-president of the American Crystallographic Association from 2011 to 2013. He also holds the position of Editor-in-Chief for Structural Dynamics with the AIP Press and serves as an Associate Editor for Critical Reviews in Biochemistry and Molecular Biology. | 0 | Biochemists |
Arlene M. Fiore is an atmospheric chemist whose research focuses on issues surrounding air quality and climate change. | 3 | Atmospheric Chemists |
Hattori's research interest has also extended to porphyry-type deposits, which supply critical metals such as copper, molybdenum, and gold. Through her research, she presented evidence supporting the notion that sulfur and metals have their origin in the mantle, and proposed that they were extracted and transported by mafic magmas from the mantle to shallow crustal levels. This proposal was based on her earlier work on Pinatubo eruption products, where metals and sulphur are released from mafic magmas during their ascent and incorporated into overlying erupted felsic magmas. Furthermore, Cees-Jan DeHoog, her post-doctoral research fellow, provided evidence that oxidized magmas are capable to transport metals and sulphur from deep in the mantle to shallow levels of crust. | 1 | Geochemists |
In 1964 Sekeris accompanied Karlson when he moved to the position of Director of the Institut für Physiologische Chemie of the Philipps University of Marburg. In 1966 he became a Privatdozent at the Medical School where, in 1970, he was promoted to “Wissenschaftlicher Rat und Professor”, and then to a C3 Professor. In 1974 he moved to the German Cancer Research Centre (Deutsches Krebsforschungszentrum) in Heidelberg as the Head of the Section “Molecular Biology of the Cell” and a professor at the Science Faculty of Heidelberg University. In 1977, he finally moved home to Greece as a Professor of Biochemistry at the University of Athens, first at the Department of Biology and then (1993) at the Medical School. During his tenure at the University of Athens he held a joint appointment at the Institute of Biological Research at the National Hellenic Research Foundation, serving as its Director. In 2000, he reached the mandatory retirement age for the Greek Public Service, but kept performing research, unofficially, up until his death in 2009.
Sekeris’ main research interest was the mode of action of steroid hormones. He started his research working on tyrosine metabolism in insects and then rapidly moved to molecular endocrinology, where he stayed. Building on the work of Adolf_Butenandt (Karlsons father-in-law and director of the Munich Institute), Karlson and Sekeris early on proposed a model on how steroids function, which was very loosely based on Jacob and Monods model for the regulation of the lactose operon of Escherichia coli. He concentrated his later work on steroid receptor(s) including the binding of glucocorticoid receptor to mitochondrial DNA, which he and his group first described. His overall focus could be described as the elucidation of the role of glucocorticoids in the regulation of gene expression and cellular metabolism. This research led to research on post-transcriptional events such as mRNA processing. He was the first to describe the presence of small RNA species involved in the processing of hnRNA. He published more than 250 papers and book chapters, making him one of Greece's most prolific scientists in non-clinical life sciences.
In addition to his long-term directorship of the Institute of Biological Research at the National Hellenic Research Foundation, Sekeris was involved in science administration both in Greece and abroad. He was a member of the Greek Research Council and acted as the Chief Executive Officer of the National Hellenic Research Foundation. Among different honours that he received during his career one should mention his election to the European Molecular Biology Organization (EMBO) and the European Academy of Sciences. After leaving Germany he was made an Honorary Professor of Cell Biology at the Science Faculty of Heidelberg University. | 0 | Biochemists |
Zhang was born in 1968 in China. She studied chemistry and environmental engineering at Shanghai University. After earning her Masters degree, Zhang moved to the Chinese Academy of Sciences Changchun Institute of Applied Chemistry (CIAC) for her graduate research. Here she worked under the supervision of Erkang Wang. | 2 | Electrochemists |
Lukinavičius completed his bachelors degree and masters degree in biochemistry at the Vilnius University in 2000 and 2002 respectively. During this period he worked as a research assistant in Saulius Klimašauskas group and investigating conformational movements of the catalytic loop of DNA methyltransferase.
Later he became interested in S-Adenosyl methionine analogues which can be cofactors for methyltransferases. He collaborated with Elmar Weinhold from RWTH Aachen University and learned chemical synthesis and received his PhD in biochemistry at Vilnius University, Lithuania in September 2007. This led to the development of a new DNA labeling method, the Methyltransferase-Directed Transfer of Activated Groups (mTAG). This method was applied for optical DNA mapping and for a profiling epigenetic modifications by several research groups.
After obtaining his PhD, he moved to École polytechnique fédérale de Lausanne for postdoctoral research where he continued on working with protein labeling methods in group of Kai Johnsson. He improved SNAP-tag protein labelling technology by developing a new biocompatible fluorophore, silicon-rhodamine (SiR). During this period, he began a collaboration with Stefan Hell to perform one of the first super-resolution microscopy experiments of living cells.
In 2016, Stefan Hell invited Lukinavičius to the Department of NanoBiophotonics of the Max Planck Institute for Biophysical Chemistry in Göttingen. He has continued working on fluorescence labeling of biomolecules and started a Chromatin Labeling and Imaging group in 2018. | 0 | Biochemists |
He subsequently joined the MRC Laboratory of Molecular Biology (LMB) in Cambridge to pursue post-doctoral research with Jan Löwe using cryo-EM to study proteins within bacterial cells. After his post-doctoral appointment concluded, he was recruited to the Sir William Dunn School of Pathology, University of Oxford as a Wellcome Trust and Royal Society Sir Henry Dale Fellow. After obtaining tenure at Oxford, he moved back to the LMB as a programme leader in 2022. His research investigates how bacteria and archaea use their surface molecules to form multicellular communities. For instance, during human infections bacteria form biofilms that help them evade antibiotics. The group also use electron tomography. | 0 | Biochemists |
Gerel Ochir was born in Moscow on 17 July 1941. She gained an interest in geology at the age of 10 after her mother gave her a book on geology by Russian geochemist Alexander Fersman. She graduated from secondary school in Ulaanbaatar in 1958.
From 1959, Ochir attended Charles University in Prague. She earned a bachelor's degree in geology and petrography in 1964. She then spent a year with the Department of Geological Survey at the Central Geological Laboratory before she started teaching at the Mongolian State University (now Mongolian University of Science and Technology) in 1965. She later returned to Charles University, earning her RNDr. in geology and geochemistry in 1980. Ochir earned her PhD in petrology from the Irkutsk Institute of Geochemistry of the Siberian Branch of the Russian Academy of Sciences in 1978. Her thesis was on the "Petrology and geochemistry of granite with crystal-bearing pegmatites of Eastern Mongolia." Ochir earned her ScD in geochemistry, petrology, and metallogeny from the Vinogradov Institute of Geochemistry of the Russian Academy of Sciences in 1990. | 1 | Geochemists |
Solomon was the head of the Chemistry and Climate Processes Group of the National Oceanic and Atmospheric Administration Chemical Sciences Division until 2011. In 2011, she joined the faculty of the Department of Earth, Atmospheric and Planetary Sciences at the Massachusetts Institute of Technology. | 3 | Atmospheric Chemists |
Albert Rakoto Ratsimamanga is considered one of Madagascars most renowned scholars. A commemorative stamp was issued in his memory in 2002, and the Institut de France minted a coin tribute to Ratsimamanga. Ratsimamangas legacy can be seen as a | 0 | Biochemists |
Paytan was born and raised in Israel. As an undergraduate, Paytan encountered geochemistry which she likens to a big complex puzzle. Paytan obtained undergraduate degrees in geology and biology (1985) and an M.S. in Earth Sciences Oceanography (1989) from Hebrew University of Jerusalem. Paytan's Ph.D. is from Scripps Institution of Oceanography (1996) where she worked with Miriam Kastner on using barite as a recorder of ocean chemistry. After postdoctoral work at University of California, San Diego she moved to the Department of Geological and Environmental Sciences at Stanford, and then onto a position at University of California, Santa Cruz. | 1 | Geochemists |
Goldschmidt was born in Zürich, Switzerland on 27 January 1888. His father, Heinrich Jacob Goldschmidt, (1857–1937) was a physical chemist at the Eidgenössisches Polytechnikum and his mother, Amelie Koehne (1864–1929), was the daughter of a lumber merchant. They named him Viktor after a colleague of Heinrich, Victor Meyer. His fathers family was Jewish back to at least 1600 and mostly highly educated, with rabbis, judges, lawyers and military officers among their numbers. As his fathers career progressed, the family moved first to Amsterdam in 1893, to Heidelberg in 1896, and finally to Kristiania (later Oslo), Norway in 1901, where he took over the physical chemistry chair at the university. The family became Norwegian citizens in 1905.
Goldschmidt entered the University of Kristiana (later the University of Oslo) in 1906 and studied inorganic and physical chemistry, geology, mineralogy, physics, mathematics, zoology and botany. He secured a fellowship for his doctoral studies from the university at the age of 21 (1909). He worked on his thesis with the noted geologist Waldemar Christofer Brøgger and obtained his Norwegian doctor’s degree when he was 23 years old (1911). For his dissertation titled Die Kontaktmetamorphose im Kristianiagebiet ("The Contact Metamorphism in the Kristiania Region"), the Norwegian Academy of Sciences awarded him the Fridtjof Nansen award in 1912. The same year he was made Docent (Associate Professor) of Mineralogy and Petrography at the university. | 1 | Geochemists |
Phillips' contributions to computational biology include advanced techniques for interpreting experimental data in complex chemical and biological systems. He focused on the interaction between troponin T (TnT) and tropomyosin, shedding light on the molecular mechanisms in muscle contractions. Additionally, he explored protein dynamics in crystals by using the Gaussian network model (GNM) and a crystallographic model to calculate Cα atom fluctuations in 113 proteins emphasizing the improved results obtained by considering neighboring molecules in the crystal. In a book chapter discussing ongoing advancements in experimental methods for complex chemical and biological systems, he highlighted the growing need for creative approaches and delved into the exploration of Normal Mode Analysis as a technique to address these challenges. | 0 | Biochemists |
Al-Kharafi worked in Kuwait University's Department of Chemistry from 1975 to 1981. In 1984 she became chair of the department and served as Dean of the Faculty of Science from 1986 to 1989. She became a professor of chemistry at Kuwait University in 1987. On 5 July 1993, Emir Jaber Al-Ahmad Al-Jaber Al-Sabah issued a decree appointing Al-Kharafi as rector of the university, and she became the first woman to head a major university in the Middle East. Al-Kharafi helped reconstruct Kuwait University after the First Gulf War, which ended in 1991. She served as president from 1993 to 2002 where she oversaw 1,500 staff members, over 5,000 employees, and over 20,000 students.
Al- Kharafi has demonstrated to be an advocate for research in Kuwait. In 1986, Al- Kharafi and her colleagues explored and compared the rich development of Kuwaiti scientific research in comparison to other nations in the third world. In her publication, Al- Kharafi was able to demonstrate the ability of Kuwait's higher education institutions to engage in relevant scientific research.
Al-Kharafi has studied the impact of corrosion on engine cooling systems, distillation units for crude oil, high temperature geothermal brines, and tap water. She has also studied corrosion in polluted water and metal corrosion caused by pollution. As an electrochemist, she studied the electrochemical behavior of metals and metal alloys including aluminum, copper, platinum, niobium, vanadium, cadmium, brass, cobalt, and low carbon steel. She collaborated on the discovery of a class of molybdenum-based catalysts that improve gasoline octane without benzene by-products.
She joined the Board of the United Nations University in 1998. Following the passage of women's suffrage in Kuwait in 2005, she said "when we have political rights, we can express our opinion and vote for the correct person... This gives us the chance to express our ideas." In 2006, she helped found the American Bilingual School in Kuwait. She is the vice president of The World Academy of Sciences. She serves on many boards, including the Kuwait Foundation for the Advancement Sciences, Alqabas, the Kuwait-MIT Center for Natural Resources and the Environment. | 2 | Electrochemists |
Bernard Vonnegut (August 29, 1914 – April 25, 1997) was an American atmospheric scientist credited with discovering that silver iodide could be used effectively in cloud seeding to produce snow and rain. He was the older brother of American novelist Kurt Vonnegut. | 3 | Atmospheric Chemists |
After a 1996 PhD titled High-precision U-series dating of corals from Western Australia : implication for last interglacial sea-levels at the Australian National University, Stirling worked at University of Michigan and ETH Zürich before moving to the University of Otago in 2006, rising to full professor in 2018. [https://www.otago.ac.nz/geology/staff/academic/claudine-stirling.html Prof Stirling] is a member of the [https://www.otago.ac.nz/geology/index.html Department of Geology] with current research interests including: isotope geochemistry, biogeochemical cycles of trace metals, paleoceanography & paleoclimatology, and environmental geochemistry.
In 2024 Stirling was elected as a Fellow of the Royal Society Te Apārangi. | 1 | Geochemists |
Reineke joined the University of Minnesota in 2011. Her research group focus on the design, characterisation and functionalisation of macromolecular systems. These macromolecules include biocompatible polymers that can deliver DNA for regenerative medicine as well as targeted therapeutic treatments. She was made a Lloyd H. Reyerson Professor with tenure at the University of Minnesota in 2011. Reineke has published over 140 papers.
Nucleic acids can have an unparalleled specificity for targets inside a cell, but need to be compacted into nanostructures (polyplexes) that can enter cells. Reineke designs polymer-based transportation systems for nucleic acids. These polymer vehicles can improve the solubility and bioavailability of drugs. These often incorporate carbohydrates, which have an affinity for polyplexes and are non-toxic. She is a member of the University of Minnesota Centre for Sustainable Polymers, synthesising polymers from sustainable ingredients. The carbohydrate units within her polymer drug delivery systems are a widely available, renewable resource. The sustainable polymers designed by Reineke include poly(ester-thioethers).
Reineke used reversible addition−fragmentation chain-transfer polymerization for the synthesis of diblock terpolymers that can be used for targeted drug delivery. She used spray dried dispersions of the polymer with the drug probucol.
Reineke was made a University of Minnesota Distinguished McKnight University Professor in 2017. She is the associate editor of ACS Macro Letters and on the Advisory Board of Biomacromolecules, Bioconjugate Chemistry and Polymer Chemistry. She is a member of the American Chemical Society Polymer Division. Her work has been supported by an National Science Foundation CAREER Award, a Sloan Research Fellowship, the National Institutes of Health and the National Academy of Sciences. | 0 | Biochemists |
Mario Molina began his studies at the University of California at Berkeley in 1968, where he would obtain his PhD in physical chemistry. Throughout his years at Berkeley, he participated in various research projects such as the study of molecular dynamics using chemical lasers and investigation of the distribution of internal energy in the products of chemical and photochemical reactions. Throughout this journey is where he worked with his professor and mentor George C. Pimentel who grew his love for chemistry even further. After completing his PhD in physical chemistry, in 1973, he enrolled in a research program at UC Berkeley, with Sherwood Rowland. The topic of interest was Chlorofluorocarbons (CFCs) . The two would later on make one of the largest discoveries in atmospheric chemistry. They developed their theory of ozone depletion, which later influenced the mass public to reduce their use of CFCs. This kickstarted his career as a widely known chemist.
Between 1974 and 2004, Molina variously held research and teaching posts at University of California, Irvine, the Jet Propulsion Laboratory at Caltech, and the Massachusetts Institute of Technology (MIT), where he held a joint appointment in the Department of Earth Atmospheric and Planetary Sciences and the Department of Chemistry. On 1 July 2004, Molina joined the Department of Chemistry and Biochemistry at University of California, San Diego, and the Center for Atmospheric Sciences at the Scripps Institution of Oceanography.
In addition he established a non-profit organization, which opened the Mario Molina Center for Strategic Studies in Energy and the Environment () in Mexico City in 2005. Molina served as its director.
Molina served on the board of trustees for Science Service, now known as Society for Science & the Public, from 2000 to 2005.
He also served on the board of directors of the John D. and Catherine T. MacArthur Foundation (2004–2014), and as a member of the MacArthur Foundation's Institutional Policy Committee and its Committee on Global Security and Sustainability.
Molina was nominated to the Pontifical Academy of Sciences as of 24 July 2000. He served as a co-chair of the Vatican workshop and co-author of the report Well Under 2 Degrees Celsius: Fast Action Policies to Protect People and the Planet from Extreme Climate Change (2017) with Veerabhadran Ramanathan and Durwood Zaelke. The report proposed 12 scalable and practical solutions which are part of a three-lever cooling strategy to mitigate climate change.
Molina was named by US president Barack Obama to form a transition team on environmental issues in 2008.
Under President Obama, he was a member of the United States President's Council of Advisors on Science and Technology.
Molina sat on the board of directors for Xyleco.
He contributed to the content of the papal encyclical Laudato Si'.
In 2020, Mario Molina contributed to research regarding the importance of wearing face masks amid the SARS-COV-2 pandemic. The research article titled "Identifying airborne transmission as the dominant route for the spread of COVID-19" was published in the Proceedings of the National Academy of Sciences of the United States of America Journal in collaboration with Renyi Zhang, Yixin Li, Annie L. Zhang and Yuan Wang. | 3 | Atmospheric Chemists |
Oliver Patterson Watts (July 16, 1865 – February 6, 1953) was a professor of chemical engineering and applied electrochemistry at the University of Wisconsin–Madison. Born in Thomaston, Maine, Watts received his bachelors degree from Bowdoin College in 1889. He received his doctoral degree in 1905; he was the first person to be awarded a Ph.D. in chemical engineering at the University of Wisconsin, where he served as a professor until 1935, after which he was an emeritus professor in the universitys college of engineering. Watts is known for his development of the hot nickel plating bath known as the "Watts Bath", which he first described in a paper published in 1915. | 2 | Electrochemists |
Adina Paytan is a research professor at the Institute of Marine Sciences at the University of California, Santa Cruz. known for research into biogeochemical cycling in the present and the past. She has over 270 scientific publications in journals such as Science, Nature, Proceedings of the National Academy of Sciences, and Geophysical Research Letters. | 1 | Geochemists |
Frank Sherwood "Sherry" Rowland (June 28, 1927 – March 10, 2012) was an American Nobel laureate and a professor of chemistry at the University of California, Irvine. His research was on atmospheric chemistry and chemical kinetics. His best-known work was the discovery that chlorofluorocarbons contribute to ozone depletion. | 3 | Atmospheric Chemists |
Wennberg received a Presidential Early Career Award for Scientists and Engineers (PECASE) in 1999 from President Bill Clinton. He was named a MacArthur Foundation Fellow in 2002. | 3 | Atmospheric Chemists |
Watson was the Director of the Science Division and Chief Scientist for the Office of Mission to Planet Earth at the National Aeronautics and Space Administration (NASA). Watson then became Associate Director for Environment in the Office of the President of the United States in the White House.
In 1996, Watson joined the World Bank as the Senior Scientific adviser in the Environment Department, became Director of the Environment Department and Head of the Environment Sector Board in 1997 and is currently the Chief Scientist and Senior Adviser for Sustainable Development. He took up a position as Chair of Environmental Science and Science Director of the Tyndall Centre at the University of East Anglia, United Kingdom, in August 2007 and joined the British Government's Department for Environment, Food and Rural Affairs (Defra) as Chief Scientific Adviser in September 2007.
Watson had a role in the regulation efforts related to both ozone depletion and global warming. The Montreal and Vienna conventions were installed long before a scientific consensus was established. Until the 1980s EU, NASA, NAS, UNEP, WMO and the British government had dissenting scientific reports. Watson played a role in the process of unified assessments and did so as well for the IPCC.
He was Chairman of the Global Environment Facility's Scientific and Technical Advisory Panel from 1991 to 1994, Chair of the Intergovernmental Panel on Climate Change (IPCC) from 1997 to 2002 and Board co-chair for the Millennium Ecosystem Assessment from 2000 to 2005. He was then Director of the International Assessment of Agricultural Science and Technology for Development which ran from 2005 to 2007, and had previously been co-chair of the International Scientific Assessment of Stratospheric Ozone for their reports from 1994 to 2006. He has been Chair or co-chair of other international scientific assessments, including the IPCC Working Group II, the United Nations Environment Programme/World Meteorological Organization (UNEP/WMO), and the UNEP Global Biodiversity Assessment.
Watson was knighted in the 2012 New Year Honours for his government service.
He is currently Director of Strategic Development for the Tyndall Centre for Climate Change Research at the University of East Anglia.
On 29 February 2016, Watson was elected Chair of IPBES at the Fourth Plenary of that organisation after having served as its vice-president before. | 3 | Atmospheric Chemists |
After a two-year work as a lecturer in Frankfurt, Kohlrausch was appointed a professor of physics at the University of Göttingen (1866–70).
During 1870 Kohlrausch became a professor at ETH Zurich in Switzerland. One year later, he moved to the Darmstadt University of Technology in Germany.
In 1875, he responded to an offer from the University of Würzburg in southern Germany, where he subsequently conducted his experiments in quantity determination and the conductivity of electrolytes. From 1888 he researched and taught at Strasbourg University.
He refused a professorship at the Humboldt University in Berlin in 1894, but from 1900 he was also a professor there. He was elected an International Honorary Member of the American Academy of Arts and Sciences in 1900 and an International Member of the United States National Academy of Sciences in 1901. He was elected a member of the Royal Swedish Academy of Sciences during 1902. He was elected to the American Philosophical Society in 1909. | 2 | Electrochemists |
Neubauer was born in Karlsbad (then in Bohemia) to physician Wolfgang and Hedwig Arnstein née Sadler. In 1892 he passed the examination for qualifying admission to a university after studying at the humanistic gymnasium of Chomutov. He then went to the German University in Prague he received a medical degree in 1898 and became interested in physiological chemistry through the influence of Karl H. Huppert. He then joined as an assistant to Friedrich von Müller at Basel. He moved to Munich in 1902. In 1908 he joined the University of Munich and served in a reserve hospital during World War I. His major work in this period was on amino acid metabolism in human health and disease. Neubauer and Konrad Fromherz examined the role of pyruvic acid in fermentation. He innovated several clinical diagnostics including tests of peptolytic activity. Gastric juice incubated with glycyl-tryptophan for twenty four hours tested with bromine to see if free tryptophan causes a rose-violet colour was used as an indication of stomach carcinoma. In 1918 he became head physician at Schwabinger Hospital, working there until his dismissal by the Nazi government in June 1933 as a person of Jewish ancestry. In 1920 he developed a blood pressure measuring device and still later a measuring slide (known as a Neubauer slide or Neubauer counting chamber) for counting cells under a microscope. With assistance and support from The Society for the Protection of Science and Learning, he emigrated to England in 1939 along with his wife Lilly Caroline (1876-1962, who was married to composer Fritz Cassirer until his death) and worked in Oxford for the remainder of his life. His contributions included studies on arsenic and other chemicals as carcinogens.
Neubauer's students included Siegfried Thannhauser, Rudolf Schindler, and Konrad Dobriner. | 0 | Biochemists |
* Dreyfus Foundation Teacher- Scholar Award (1986)
* Alexander Von Humboldt Fellows Award (1990)
* Alexander Von Humboldt Award (1993)
* Elected, Fellow of the Meteoritical Society (1996)
* Ernest O. Lawrence Medal, Department of Energy (1998)
* Chancellors Associates Endowed Chair (1999–present)
* American Chemical Society (San Diego) Distinguished Scientist of the year (2002)
* Elected, Fellow, American Academy of Arts and Sciences (2002)
* Distinguished Alumni Award, Old Dominion University (2003)
* Press Club Headliner of the Year 2002 (2003)
* Selected, San Diego City Beat, 33 People to Watch in 2003 (2003)
* Creative Catalyst Award, UCSD-TV (2003)
* Elected, Phi Beta Kappa (2005)
* Elected, National Academy of Sciences (2006)
* Minor Planet Named in his Honor: Asteroid (7004) Markthiemens. International Astronomical Union (2006).
* Elected, Fellow American Geophysical Union (2006).
* Elected, Fellow, Geochemical Society (2007)
* Elected, Fellow, European Association for Geochemistry (2007)
* Graduate Made Good, Distinguished Alumni, Omega Delta Kappa Honor Society, Florida State University (2007)
*V.M. Goldschmidt Medal; The Geochemical Society. Awarded in Davos, Switzerland (2009)
* Selected one of 100 Distinguished Graduates in 100 years of Florida State University History (2010).
* Cozzarelli Prize, U.S. National Academy of Sciences for outstanding paper in Physical Sciences in the Proceedings of the National Academy of Sciences (2011).
* Elected Fellow, American Association Arts and Sciences (2013).
* Albert Einstein Professor, Chinese Academy of Sciences (2014).
* Leonard Medal of the Meteoritical Society (2017)
* Miller Visiting Professor, University California Berkeley (2017)
* Gauss Professorship, Göttingen Academy of Sciences, Germany (2017)
* Gauss Professorship, Göttingen Academy of Sciences, Germany (2020) | 3 | Atmospheric Chemists |
Van de Flierdt grew up in rural western Germany. In 2000 van de Flierdt completed a diploma in Geology at the University of Bonn. She earned a PhD at ETH Zurich in 2003, working with Alexander Halliday. | 1 | Geochemists |
He worked first with Hermann Emil Fischer on the field of organic chemistry, but changed to electrochemistry after his work with Wilhelm Ostwald. He is known for the discovery of an electrosynthetic rearrangement reaction of various alkylated ethyl acetoacetates to form hydrocarbons, now called the Tafel rearrangement, and the Tafel equation, which relates the rate of an electrochemical reaction to the overpotential. He is also credited for the discovery of the catalytic mechanism of hydrogen evolution (the Tafel mechanism). Tafel retired aged 48 due to ill health, but continued to write book reviews until his death. | 2 | Electrochemists |
Zeba Islam Seraj is a Bangladeshi scientist known for her research in developing salt-tolerant rice varieties suitable for growth in the coastal areas of Bangladesh. She is currently a professor at the Department of Biochemistry and Molecular Biology, University of Dhaka. | 0 | Biochemists |
* 1953 - Palladium Medalist, Electrochemical Society
* 1951 - President of the American Chemical Society
* 1949 - Class of 1913 Distinguished Service Award
* 1948 - First recipient of the Fisher Award for analytical chemistry
* 1916-1917 - Charlotte Elizabeth Procter Fellowship | 2 | Electrochemists |
The Earth System and climate research are the main focus of the department in the investigation of biological and organic aerosols, aerosol-cloud interactions and atmosphere-surface exchange processes. The food and health sciences area studies how air pollutants cause changes in protein macromolecules and how this affects allergic reactions and diseases. The sequence of multiphase processes at the molecular level and its impact on the macroscopic and global scale is also investigated. The challenge lies in bridging different spatial and temporal scales: from tenths of nanometers to thousands of kilometers and from nanoseconds to years.
Pöschl is also the founder and chief executive editor of Atmospheric Chemistry and Physics (ACP), an open access peer-reviewed scientific journal published by the European Geosciences Union (EGU). Founded in 2001 as the world's first scientific journal with public peer review and discussion, it has become one of the major environmental and earth sciences journal. Pöschl is also a council member of the EGU (2003-2007), and he has been the Chair of the EGU Publication Committee (2009-2014). He is an initiator and co-chair of the international open access initiative OA2020. | 3 | Atmospheric Chemists |
Born on April 5, 1975, Rebecca Hornbrook grew up in Barrie, Ontario. While attending Innisdale Secondary School, Hornbrook excelled at science and math which encouraged her to study science after graduation. She attended York University in Toronto where she earned her undergraduate degree in chemistry while studying to become a high school science teacher. Towards the end of her undergraduate career, Hornbrook, who spent summers working at an atmospheric chemistry lab affiliated with York University's Centre For Atmospheric Chemistry, decided to pursue her graduate degree.
After graduating with her Bachelor of Education in Chemistry and Mathematics as well as her Bachelor of Science in Chemistry with honors in atmospheric chemistry, Hornbrook began her Doctor of Philosophy in Chemistry at York University. Throughout her graduate education, she worked alongside Jochen Rudolph conducting research on Volatile organic compounds and their role in the chemistry of the troposphere. Hornbrook published a total of seven papers before graduating with her Ph.D in chemistry from York University in 2005.
Hornbrook is the recipient of two Governor General's Academic Medals which are awarded to the student who graduates a Canadian school with the highest grades. She was awarded the Gold Medal in 2006 for her Ph.D dissertation completed the year before at York University and the Bronze Medal in 1994 while attending Innisdale Secondary School. | 3 | Atmospheric Chemists |
In 1981 Yoshino started doing research on rechargeable batteries using polyacetylene. Polyacetylene is the electroconductive polymer discovered by Hideki Shirakawa, who later (in 2000) would be awarded the Nobel Prize in Chemistry for its discovery.
In 1983 Yoshino fabricated a prototype rechargeable battery using lithium cobalt oxide (LiCoO) (discovered in 1979 by Godshall et al. at Stanford University, and John Goodenough and Koichi Mizushima at Oxford University) as cathode and polyacetylene as anode. This prototype, in which the anode material itself contains no lithium, and lithium ions migrate from the LiCoO cathode into the anode during charging, was the direct precursor to the modern lithium-ion battery (LIB).
Polyacetylene had low real density which meant high capacity required large battery volume, and also had problems with instability, so Yoshino switched to carbonaceous material as anode and in 1985 fabricated the first prototype of the LIB and received the basic patent.
This was the birth of the current lithium-ion battery.
The LIB in this configuration was commercialized by Sony in 1991 and by A&T Battery in 1992. Yoshino described challenges and history of the invention process in a book chapter from 2014.
Yoshino discovered that carbonaceous material with a certain crystalline structure was suitable as anode material, and this is the anode material that was used in the first generation of commercial LIBs. Yoshino developed the aluminum foil current collector which formed a passivation layer to enable high cell voltage at low cost, and developed the functional separator membrane and the use of a positive temperature coefficient (PTC) device for additional safety.
The LIB's coil-wound structure was conceived by Yoshino to provide large electrode surface area and enable high current discharge despite the low conductivity of the organic electrolyte.
In 1986 Yoshino commissioned the manufacture of a batch of LIB prototypes. Based on safety test data from those prototypes, the United States Department of Transportation (DOT) issued a letter stating that the batteries were different from the metallic lithium battery. | 2 | Electrochemists |
Technical Reports:
*"[https://www.osti.gov/biblio/6646534-radiochemistry-research-progress-report-october-september Radiochemistry Research: Progress Report, October 1, 1974 to September 30, 1975"], University of California, Irvine, United States Department of Energy (through predecessor agency the Atomic Energy Commission), (1975).
*"[https://www.osti.gov/biblio/6607773-research-chemical-kinetics-progress-report-january-september Research in Chemical Kinetics: Progress Report, January 1, 1978 to September 30, 1978"], University of California, Irvine, United States Department of Energy, (1978).
*"[https://www.osti.gov/biblio/656622-research-chemical-kinetics-annual-report Research in Chemical Kinetics. Annual Report, 1993"], University of California, Irvine, United States Department of Energy, (1993).
*"[https://www.osti.gov/biblio/656623-research-chemical-kinetics-annual-report Research in Chemical Kinetics. Annual Report, 1994"], University of California, Irvine, United States Department of Energy, (June 1, 1994). | 3 | Atmospheric Chemists |
Hastings graduated magna cum laude with a Bachelor of Science in marine science and chemistry from the University of Miami, Coral Gables in 1998. After her undergraduate she did a research internship at the National Oceanic and Atmospheric Administration’s Geophysical Fluid Dynamics Laboratory in Princeton, NJ. She credits this position to her interest in atmospheric chemistry. By 2004 Hastings had completed her Ph.D. in the Princeton University department of Geosciences. Her thesis studied reactive nitrogen using measurements of stable isotopes and was titled "Studies of Reactive Nitrogen in the Atmosphere Using Global Modeling and Stable Isotope Measurements". | 3 | Atmospheric Chemists |
His most-cited publications, according to Google Scholar are:
*Lukinavičius, G., K. Umezawa, N. Olivier, A. Honigmann, G. Yang, T. Plass, V. Mueller, L. Reymond, I. R. Corrêa, Z.-G. Luo, C. Schultz, E. A. Lemke, P. Heppenstall, C. Eggeling, S. Manley and K. Johnsson (2013). [https://doi.org/10.1038/nchem.1546 A near-infrared fluorophore for live-cell super-resolution microscopy of cellular proteins]. Nature Chemistry 5(2): 132-139. (cited 837 times)
*Lukinavičius, G., L. Reymond, E. D’Este, A. Masharina, F. Göttfert, H. Ta, A. Güther, M. Fournier, S. Rizzo, H. Waldmann, C. Blaukopf, C. Sommer, D. W. Gerlich, H.-D. Arndt, S. W. Hell and K. Johnsson (2014). [https://doi.org/10.1038/nmeth.2972 Fluorogenic probes for live-cell imaging of the cytoskeleton]. Nature Methods 11(7):731-3. (cited 817 times)
*Dalhoff C., G. Lukinavičius, S. Klimašauskas and E. Weinhold (2006). [https://doi.org/10.1038/nchembio754 Direct transfer of extended groups from synthetic cofactors by DNA methyltransferases]. Nature Chemical Biology 2, 31-2. (cited 252 times)
*Lukinavičius, G., C. Blaukopf, E. Pershagen, A. Schena, L. Reymond, E. Derivery, M. Gonzalez-Gaitan, E. D’Este, S. W. Hell, D. W. Gerlich and Kai Johnsson (2015). [https://doi.org/10.1038/ncomms9497 SiR–Hoechst is a far-red DNA stain for live-cell nanoscopy]. Nature Communications 6, 8497. (Cited 276 times)
*Liutkevičiūtė, Z., G. Lukinavičius, V. Masevičius, D. Daujotytė and S. Klimašauskas (2009). [https://doi.org/10.1038/nchembio.172 Cytosine-5-methyltransferases add aldehydes to DNA]. Nature Chemical Biology 5, 400-402. (cited 173 times) | 0 | Biochemists |
Melanie Jane Leng is a Professor of Isotope Geosciences at the University of Nottingham working on isotopes, palaeoclimate and geochemistry. She also serves as the Chief Scientist for Environmental Change Adaptation and Resilience at the British Geological Survey and Director of the Centre for Environmental Geochemistry, a collaboration between the University of Nottingham and the British Geological Survey. For many years (till 2019) she has been the UK convenor and representative of the UK geoscience community on the International Continental Scientific Drilling Program. | 1 | Geochemists |
Patricia Ana Matrai is a marine scientist known for her work on the cycling of sulfur. She is a senior research scientist at Bigelow Laboratory for Ocean Sciences. | 1 | Geochemists |
* Hero of Socialist Labour - 1965
* Order of Lenin, three times
* Order of the Red Banner of Labour, three times
* Lenin Prize (1931)
* Stalin Prize, three times (1941, 1949, 1952)
Frumkin was nominated for Nobel Prize in Chemistry in 1946, 1962, 1963, 1964, 1965 and 1966, but he did not receive the Prize. | 2 | Electrochemists |
Asemota has undertaken outreach research with Jamaican farmers, experimenting with lab-derived yam planting materials in their fields, and reviving threatened Jamaican yam varieties. | 0 | Biochemists |
Nathaniel Howell Furman (1892–1965) was an American professor of analytical chemistry who helped develop the electrochemical uranium separation process as a member of the Manhattan Project. | 2 | Electrochemists |
*Beridze TG, Odintsova MS, Sissakian NM (1967) Distribution of bean leaf DNA components in the cell organelle fractions. Molek.Biol.USSR. 1,142-153
*Beridze TG (1972) DNA nuclear satellites of the genus Phaseolus. Biochim. Biophys. Acta 262,393-396
*Beridze TG (1975) DNA nuclear satellites of the genus Brassica: variation between species. Biochim.Biophys.Acta. 395,274-279
*Beridze T. Satellite DNA, 1986, Springer-Verlag, Berlin, Heidelberg, New York, Tokio
*Beridze T, Pipia I, Beck J., Hsu S.-CT, Gamkrelidze M, Gogniashvili M, Tabidze V, This R,Bacilieri P, Gotsiridze V, Glonti M, Schaal B (2011). Plastid DNA sequence diversity in a worldwide set of grapevine cultivars (Vitis vinifera L. subsp. vinifera). Bulletin of the Georgian National Academy of Sciences. 5, 2011, 98–103.
*Pipia I, Gogniashvili M, Tabidze V, Beridze T, Gamkrelidze M, Gotsiridze V, Melyan G, Musayev M, Salimov V, Beck J, Schaal B (2012) Plastid DNA sequence diversity in wild grapevine samples (Vitis vinifera subsp. sylvestris) from the Caucasus region. Vitis 51 (3), 119–124
*Tabidze V, Baramidze G, Pipia I, Gogniashvili M, Ujmajuridze L, Beridze T, Hernandez AG, Schaal B (2014) The Complete Chloroplast DNA Sequence of Eleven Grape Cultivars. Simultaneous Resequencing Methodology. Journal International des Sciences de la Vigne et du Vin J Int Sci Vigne Vin. 48, 99-109
*Tabidze V, Pipia I, Gogniashvili M, Kunelauri N, Ujmajuridze L, Pirtskhalava M, Vishnepolsky B, Hernandez AG, Fields CJ, BeridzeT (2017) Whole genome comparative analysis of four Georgian grape cultivars. Molecular Genetics and Genomics. 292, 1377-1389
*Gogniashvili M., Naskidashvili P., Bedoshvili D., Kotorashvili A., Kotaria N., Beridze T. (2015) Complete chloroplast DNA sequences of Zanduri wheat (Triticum spp.) Genet Resour Crop Evol
*Gogniashvili M, Jinjikhadze T, Maisaia M, Akhalkatsi M, Kotorashvili A, Kotaria N, Beridze T, Dudnikov AJ (2016) Complete chloroplast genomes of Aegilops tauschii Coss. and Ae.cylindrica Host sheds light on plasmon D evolution. Current Genetics.
*Gogniashvili M, Maisaia I, Kotorashvili A, Kotaria N, Beridze T (2018) Complete chloroplast DNA sequences of Georgian indigenous polyploid wheats (Triticum spp.) and B plasmon evolution. Genet Resour Crop Evol 65:1995–2002 | 0 | Biochemists |
Ratsimamanga married Suzanne Urverg-Ratsimamanga on 23 March 1963. She was a French Ashkenazi Jewish biochemist, a Fellow of the World Academy of Sciences (1989), and the African Academy of Sciences (1987), and IMRAs Chair and Alberts closest collaborator. With Albert, she co-founded "Albert and Suzanne Rakoto Ratsimamanga Foundation" within IMRA.
Ratsimamanga died on 16 September 2001, aged 93, in Antananarivo, Madagascar. A state funeral was held for him. | 0 | Biochemists |
El-Sayed's research interests include the use of steady-state and ultra fast laser spectroscopy to understand relaxation, transport and conversion of energy in molecules, in solids, in photosynthetic systems, semiconductor quantum dots and metal nanostructures. The El-Sayed group has also been involved in the development of new techniques such as magnetophotonic selection, picosecond Raman spectroscopy and phosphorescence microwave double resonance spectroscopy. A major focus of his lab is currently on the optical and chemical properties of noble metal nanoparticles and their applications in nanocatalysis, nanophotonics and nanomedicine. His lab is known for the development of the gold nanorod technology. As of 2021, El-Sayed has produced over 1200 publications in refereed journals in the areas of spectroscopy, molecular dynamics and nanoscience, with over 130,000 citations. | 0 | Biochemists |
Anders Meibom (born 9 September 1969) is a Danish interdisciplinary scientist and former football player active in the field of bio-geochemistry. He is a professor at the École Polytechnique Fédérale de Lausanne (EPFL), where he heads the laboratory for biological geochemistry. | 1 | Geochemists |
Friedrich Wilhelm Georg Kohlrausch (14 October 1840 – 17 January 1910) was a German physicist who investigated the conductive properties of electrolytes and contributed to knowledge of their behaviour. He also investigated elasticity, thermoelasticity, and thermal conduction as well as magnetic and electrical precision measurements.
Nowadays, Friedrich Kohlrausch is classed as one of the most important experimental physicists. His early work helped to extend the absolute system of Carl Friedrich Gauss and Wilhelm Weber to include electrical and magnetic measuring units. | 2 | Electrochemists |
Nikolay Ivanovich Kobozev (Russian: Николай Иванович Кобозев; May 12, 1903, Moscow – February 24, 1974, Moscow) was a Soviet physico-chemist, one of the pioneers of electrocatalysis, founder of the Department of Catalysis and Gas Electrochemistry at Moscow State University. | 2 | Electrochemists |
* Halliday, Alex N., Der-Chuen Lee, John N. Christensen, Mark Rehkämper, Wen Yi, Xiaozhong Luo, Chris M. Hall, Chris J. Ballentine, Thomas Pettke, and Claudine Stirling. "Applications of multiple collector-ICPMS to cosmochemistry, geochemistry, and paleoceanography." Geochimica et Cosmochimica Acta 62, no. 6 (1998): 919–940.
* Amelin, Yuri, Angela Kaltenbach, Tsuyoshi Iizuka, Claudine H. Stirling, Trevor R. Ireland, Michail Petaev, and Stein B. Jacobsen. "U–Pb chronology of the Solar System's oldest solids with variable 238U/235U." Earth and Planetary Science Letters 300, no. 3-4 (2010): 343–350.
* Stirling, Claudine H., Morten B. Andersen, Emma-Kate Potter, and Alex N. Halliday. "Low-temperature isotopic fractionation of uranium." Earth and Planetary Science Letters 264, no. 1-2 (2007): 208–225.
* Gutjahr, Marcus, Martin Frank, Claudine H. Stirling, Veronika Klemm, Tina Van de Flierdt, and Alex N. Halliday. "Reliable extraction of a deepwater trace metal isotope signal from Fe–Mn oxyhydroxide coatings of marine sediments." Chemical Geology 242, no. 3-4 (2007): 351–370.
* Rehkämper, Mark, Maria Schönbächler, and Claudine H. Stirling. "Multiple collector ICP‐MS: Introduction to instrumentation, measurement techniques and analytical capabilities." Geostandards Newsletter 25, no. 1 (2001): 23–40. | 1 | Geochemists |
Frederick J. Grieman is an American experimental physical chemist. He is the Roscoe Moss Professor of Chemistry at Pomona College in Claremont, California. His research interests include chemical reactions in the atmosphere that affect the concentrations of pollutants and gas-phase spectroscopy of transition metal compounds. | 3 | Atmospheric Chemists |
* Jean-Claude Duplessy was one of the lead authors of the "paleoclimatology" chapter of the report of the Intergovernmental Panel on Climate Change (IPCC), which was published in 2007.
* His mission was to coordinate the activities of some twenty scientists from the international community with the objective of showing how the study of ancient climates makes it possible to better understand the mechanisms that could come into play in a world whose climate is disrupted by greenhouse gas and dust emissions. He was co-recipient, with his IPCC colleagues, of the 2007 Nobel Peace Prize in this capacity.
* He has been a member of the French Academy of Sciences since 2011 in the "Sciences of the Universe" section.
* He is a member of the European Academy of Sciences, Academia europaea since 1989
* Winner of the Aimé Berthé Prize of the Academy of Sciences (1987)
* Milankovitch Medal of the EGS (1995).
* Winner of the Georges Lemaître Prize of the Catholic University of Louvain (1997)
* Dr Honoris Causa from the University of Kiel, Germany (2003).
* Grand Prix Louis D of the Institut de France 2004.
* Prestwich Prize of the French Geological Society 2004.
* Grand Prix Dolomieu of BRGM awarded by the Academy of Sciences in 2004. | 1 | Geochemists |
By analyzing the isotopic compositions of stable and radiogenic nuclides in meteorites, Dauphas investigates the timing and processes that lead to the formation of Solar System bodies and the establishment of habitable conditions on Earth and Mars. He used iron isotopes to study how the iron biogeochemical cycle of the Earth changed through time. He established that Mars was formed rapidly, within the first 2~4 million years of the birth of the Solar System, which explains the much smaller size of Mars compared to Earth and Venus. He first identified the mineralogical carrier of the Cr isotopic anomalies in meteorites as Cr-rich nano-sized spinels from supernovae. He constrained the nature of Earths accreting materials through time, using a novel approach that relies on the different affinities of elements with Earths core, and showed that the materials formed Earth are from an isotopically homogeneous reservoir.
Dauphas was part of the preliminary examination team for JAXA's Hayabusa2 mission, which returned a fragment of Ryugu carbonaceous asteroid to Earth for scientific research. He was selected as a member of the Mars Sample Return Campaign Science Group in 2022. | 1 | Geochemists |
Hans Falkenhagen (13 May 1895 – 26 June 1971) was a German physicist and electrochemist best known for eponymous Debye–Falkenhagen effect.
1955 he became a regular member of the German Academy of Sciences at Berlin and in 1962 a member of the German Academy of Sciences Leopoldina. | 2 | Electrochemists |
Jean-Claude Duplessy, a former student of the Ecole Normale Supérieure (Ulm), a physics graduate, is a geochemist. His work has contributed to a better understanding of how the ocean has functioned over the recent history of the Earth. He is a recognized pioneer in rebuilding ocean dynamics through the use of carbon isotopes and foraminiferous shell oxygen in marine sediments. He was one of the first to see the importance of a high quality chronology for a reliable interpretation of measurements related to climate variations in the Earth's past. | 1 | Geochemists |
Chetsanga was born in Murewa, Zimbabwe on 22 August 1935, and was baptised in 1948. In his youth, he was educated at Nhowe Mission, and went on to study at University of California, Berkeley where he received his BSc in 1965. Chetsanga also studied for a period at Pepperdine University. In 1969, he received his MSc and PhD in biochemistry and molecular biology from University of Toronto before becoming a post doctoral fellow at Harvard University between 1969 and 1972. Between 1972 and 1983 he became a professor at the University of Michigan, then in 1983 he left to become the senior lecturer in Biochemistry for University of Zimbabwe. In 1990, President Robert Mugabe awarded him President’s Award for Distinguished Contribution to Science and Technology. Has also awarded the Order of the Star of Zimbabwe. He is presently the vice chancellor at Zimbabwe Ezekiel Guti University.
In 2004, when the Zimbabwe Academy of Sciences was formed, Chetsanga was appointed the first president of the academy. Chetsanga advocated the use of genetically modified food sources as a possible solution for food shortages in Africa in 2020. | 0 | Biochemists |
As of 2017, in the United States, fewer than 0.1% of geoscience doctoral students are African American or Native American. In an interview with Chalkdust magazine, Morris remarked, "if you never see any African American professors, or very rarely see them, then you don't see yourself becoming one, and you say to yourself maybe I should do something else,".
Morris has dedicated his scientific career to mentoring students and early career researchers from underserved backgrounds. In 2001 Morris founded the Howard University (HU) Graduate Program in Atmospheric Sciences (HUPAS), which was the first atmospheric science doctoral programme at a minority serving institution. Under his leadership, HUPAS became a national leader in the graduation of minority atmospheric science researchers; between 2006 and 2016 HUPAS produced half of all African-American doctoral graduates in the United States.
Alongside working to support early career researchers, Morris has created educational programmes for young people. He designed a series of weather camps for students in the United States and Puerto Rico, which included courses in weather, climate and the environment. Almost 70% of the students who participate in the weather camps are African-American or Latinx. During his time at Howard University, Morris encouraged his research group to visit schools in the District of Columbia Public School system and lead interactive education programmes as part of a travelling science show which became known as Community Science Fests. Beyond Washington, D.C., these events took place in Brazil, Barbados, Uruguay, the Philippines, Ethiopia and Sudan. He has worked with Talitha Washington on programmes that promote STEMM diversity. He is a member of the National Academy of Sciences Board on Atmospheric Science and the Climate. | 3 | Atmospheric Chemists |
Ralph Norman "Buzz" Adams (August 26, 1924 – November 28, 2002) was a distinguished bioanalytical chemist at the University of Kansas. The Adams Institute and Adams Professorship at the university are named after him. | 2 | Electrochemists |
Naomi Chayen is a biochemist and structural biologist. She is a professor of Biomedical Sciences at Imperial College London, where she leads the Crystallization Group in Computational and Systems Medicine. She is best known for developing the microbatch method and inventing novel nucleants for protein crystallization which have been applied to high-throughput screening for rational drug design. | 0 | Biochemists |
Ryan is an expert in electrochemistry and interfacial material science. Ryan joined Imperial College London as a lecturer in 1998. Her research group explore the mechanism of corrosion, new protective materials and materials with thermal management capabilities. She studies the process of electrochemical deposition, the stabilities of metals and the formation processes of metal and oxide nanostructures. She pioneered the use of synchrotron X-rays to study reactive electrochemical systems, including the stability of nanostructures.
In 2002, she published the seminal paper "Why stainless steel corrodes" in Nature.
In 2012, she joined Amy Cruickshank to advise on how to preserve the Dornier Do 17 (The Flying Pencil), which was discovered in Goodwin Sands. She also contributed to the 2016 World Economic Forum, where she discussed how nano-composite materials could use heat from a vehicle's engine to power air conditioning.
Her recent work focusses on how nanomaterials interact with biological systems, including the toxicity of nanoparticles and development of plasmonic materials for biosensing. She works with the heritage sector to develop new materials and conservation techniques. She has worked with the Science Museum, the Royal Air Force Museum London and the Victoria and Albert Museum. She collaborates extensively with Dr Eleanor Schofield, Head of Conservation and Collections Care at the Mary Rose Trust.
In 2017, she was appointed Vice Dean of Research for the Faculty of Engineering at Imperial College London. She is the Director of the Imperial-Shell University Technology Centre in Advanced Interfacial Materials Science. Ryan is a member of the London Centre for Nanotechnology. She is an editor for Nature's Materials Degradation Journal.
She was elected a Fellow of the Royal Academy of Engineering in 2015. She is a Fellow of the Institute of Materials, Minerals and Mining. She is a member of the Strategic Advisory Network of the Engineering and Physical Sciences Research Council. She is a Trustee of the Heritage science forum.
Ryan was appointed Commander of the Order of the British Empire (CBE) in the 2022 Birthday Honours for services to education and materials science and engineering. | 2 | Electrochemists |
Grieman attended the University of California, Irvine. He then earned his doctorate from the University of California, Berkeley. | 3 | Atmospheric Chemists |
* National Science Foundation CAREER Award, 2011-2017
* Leopold Leadership Fellow, Stanford Woods Institute for the Environment, 2013
* Global Young Academy Member, 2014-2019
* Kavli Fellow, National Academy of Sciences, 2015
* Leshner Leadership Institute Public Engagement Fellow, American Association for the Advancement of Science, 2016-2017 | 3 | Atmospheric Chemists |
Asemota conducted PhD research at the University of Benin and Frankfurt University, where she studied the molecular genetics and metabolism of the browning of yam tubers in storage.
Upon moving to Jamaica, prompted by ongoing problems with production and storage in the Jamaican yam industry, Asemota continued researching yams, founding the multidisciplinary UWI Yam Biotechnology Project. Initially, Asemota investigated the biochemical effects of removing yam heads at harvest, a common farming practice in Jamaica. Over the ensuing decades, Asemota's research team has investigated many aspects of yam biochemistry and physiology, from DNA fingerprinting studies of Jamaican yam varieties to the carbohydrate metabolism of yam tubers in storage.
In addition to her work on yam production and storage, Asemota has studied the metabolic effects of yams and yam-derived products on animal models of diseases such as diabetes. More recently, the Yam Biotechnology Project has moved towards a farm to finished products strategy, with the goal of producing yam-based food, medical, and biofuel products to benefit the Jamaican economy. She has also applied similar research techniques to other types of tropical crop.
Asemota has served as Principal Investigator for the National Institute of Health (NIH) and National Science Foundation (NSF) grants. She has lectured undergraduates, postgraduates and postdoctoral levels worldwide, and has supervised or advised at least 30 postgraduate students in Biochemistry or Biotechnology. She has over 250 publications, and owns four patents from her research. | 0 | Biochemists |
When discussing how she became interested in engineering, Bond noted, "I was poor and had a car that broke, and I had to fix it. It was frustrating but satisfying." In the late 1980s, she apprenticed in an auto body shop and became curious about how cars were made. She wanted to know about their design, not just to fix automobiles but to improve them. These experiences and others eventually led her to engineering
According to the MacArthur Foundation, Bond's laboratory and field research into quantifying the sources and effects of black carbon, as well as its optical and physical properties in the atmosphere, have provided the most comprehensive data on this pollutant and its effects as of 2014. Bond has expressed a specific interest in having her research bring a difference to the practical lives of individuals.
In 2003, Bond joined the faculty at department of Civil and Environmental Engineering at the University of Illinois. She then became an affiliate professor in Atmospheric Sciences in 2007. In 2014, Bond was named a Nathan M. Newmark Distinguished Professor.
Bond joined the Colorado State University's department of Mechanical Engineering in 2019 as the Walter Scott, Jr. Presidential Chair in Energy, Environment and Health. | 3 | Atmospheric Chemists |
Besides his service as Chair and Dean, Thiemens has been active in external service:
* Board of directors, San Diego State University Research Foundation, 2006-2009
* City of San Diego Science Advisory Board (2002-2005)
* San Diego Natural History Museum Board of Trustees (2001-2006)
* San Diego Chamber of Commerce Environmental Advisory Board 1998-1999.
* ECO AID Board of Advisors (1999-2002)
* Science Advisory Board. Office of Trade and Business Development. San Diego (2002)
* Kyoto Prize Symposium San Diego organizing committee, UCSD Lead. 2006-2016.
* Council, The Meteoritical Society, 2008-2011.
* Committee on the Significance of International Transport of Air Pollutants (2008-2009) National Research Council. (Global Sources of Local Pollution Report)
* Understanding the Impact of Selling the Helium Reserve (2008-2009). National Research Council (Selling the Nations Helium Reserve Report) National Research Council
* Planetary Protection Committee. Mars Sample Return (2008-2009). National Research Council (Assessment of Planetary Protection for Mars Sample Return Mission)
* Committee for Planetary Protection Standards for Icy Bodies in the Outer Solar System (2011) National Research Council
* Board on Energy and Environmental Systems 2009-2016. National Academy of Sciences.
* Searching for Life Across Space and Time. (2016-2017). Space Science Board Requested study.
* Space Sciences Board (2014–present). National Academy of Sciences
* Executive committee, Space Sciences Board (2018—present) National Academy of Sciences.
* Associate editor, Proceedings National Academy of Sciences, 2007 to present. National Academy of Sciences | 3 | Atmospheric Chemists |
Vernon R. Morris (born January 23, 1963) is an American atmospheric scientist, Foundation Professor and Associate Dean of the Knowledge Enterprise in the New College of Interdisciplinary Arts and Sciences at Arizona State University. He is an Emeritus Professor in the Department of Chemistry and the former Director of the Atmospheric Sciences Program at Howard University. He was awarded the 2018 American Meteorological Society Charles E. Anderson award and the 2020 Presidential Citation for Science and Society American Geophysical Union. | 3 | Atmospheric Chemists |
* Relating Concentration Polarizations and Electrode Potentials (Kaiser Wilhelm Inst. Berlin, 1951) “Concentration polarization due to the initial chemical reaction in electrolytes and its contribution to the stationary polarization resistance corresponding to the equilibrium potential.” Gerischer, Heinz; Vetter, Klaus J.; Z. physik. Chem.(1951)197, 92–104.
* Theory of AC Electrochemistry (Max Planck Inst. Phys. Chem. Göttingen, 1951) “Alternating-current polarization of electrodes with a potential-determining step for equilibrium potential.” Gerischer, H., Z. physik. Chem. (1951) 198, 286–313
* Discovery of Radicals on Electrodes (Max Planck Inst. Phys. Chem., Göttingen, 1956) “Catalytic decomposition of hydrogen peroxide on metallic platinum.” Gerischer, R; Gerischer, H.; Z. physik. Chem. (1956) 6, 178–200
* Observation of the Different Electrochemical Etching Rates of p and n Type Semiconductors (Max Planck Inst. Metallforsch., Stuttgart, 1957) “Solution of n- and p-germanium in aqueous electrolyte solution under the action of oxidizing agents.” Gerischer, H.; Beck, F.; Z. physik. Chem. (1957) 13, 389-95.
* Invention of the Potentiostat (Max Planck Inst. Metallforsch., Stuttgart, 1957) “The electronic potentiostat and its application in the investigation of fast electrode reactions” Gerischer, H.; Staubach, K. E.; Z. Electrochem.(1957)61, 789-94.
* Explanation of Stress Corrosion (Max-Planck-Inst. Metallforschung, Stuttgart, 1957) “Electrochemical processes in stress corrosion” Gerischer, H.; Werkstoffe u. Korrosion (1957)8, 394-401.
* Discovery of Adatoms, the Existence of Adsorbed Atoms on Electrodes (Max-Planck-Inst. Metallforschung, Stuttgart, 1958) “Mechanism of electrolytic discharge of hydrogen and adsorption energy of atomic hydrogen” Gerischer, H.; Bull. soc. chim. Belges (1958) 67, 506-27.
* Observation of Differently Reacting Valence and Conduction Band Carriers (Max-Planck-Inst. Metallforschung, Stuttgart, 1959) “Oxidation-reduction processes in germanium electrodes.”Beck, F.; Gerischer, H.; Z. Elektrochem.(1959) 63, 943-50.
* Relating Band Positions to Electrode Kinetics (Max-Planck-Inst. Metallforsch., Stuttgart, 1960) “Kinetics of oxidation-reduction reactions on metals and semiconductors. I &II General remarks on the electron transition between a solid body and a reduction-oxidation electrolyte.” Gerischer, H.; Z. physik. Chem. (1960) 26, 223-47; 325-38; (1961) 27, 48-79.
* On the use of single crystal electrodes (Techn. Hochsch. Munich, 1963) “Preparation of spherical single crystal electrodes for use in electrocrystallization studies." Roe, D.K., Gerischer H.; J. Electrochem. Soc.(1963) 110, 350-352.
* Role of Surface States in Electron Transfer at Semiconductor-Solution Interfaces (Tech. Hochsch., Munich, 1967) “Surface activity in redox reactions on semiconductors.” Gerischer, H.; Wallem Mattes; I. Zeitschrift für Physikalische Chemie (1967) 52,60-72.
* Dye Photosensitization of Zinc Oxide (Tech. Hochsch., Munich,1969) “Electrochemical studies on the mechanism of sensitization and supersensitization of zinc oxide single crystals.” Tributsch, H.; Gerischer, H.; Berichte der Bunsen-Gesellschaft (1969) 73,251-60. “Use of semiconductor electrodes in the study of photochemical reactions.” Tributsch, H.; Gerischer, H.; Berichte der Bunsen-Gesellschaft(1969)73,850-4.
* Electrochemistry of electronically excited states (Fritz-Haber-Institut der MPG, 1973) "Elektrodenreaktionen mit angeregten elektronischen Zuständen.“ Gerischer, H.; Ber. Bunsenges. Phys. Chem. (1973) 77, 284-288.
* Semiconductor Photodecomposition (Fritz-Haber-Institut der MPG, 1977 “On the stability of semiconductor electrodes against photodecomposition”. Gerischer H. J. Electroanal. Chem. (1977) 82, 133-143.
* Relating Fermi Levels to Redox Potentials (Fritz-Haber-Inst., Max-Planck-Ges., Berlin, 1983)“Fermi levels in electrolytes and the absolute scale of redox potentials.“ Gerischer, H.; Ekardt, W.; Appl. Phy.s Lett.(1983) 43, 393-5. | 2 | Electrochemists |
Kerri Pratt is an American chemist and Associate Professor of Chemistry at the University of Michigan. Her research considers atmospheric chemistry and how it impacts human health. She studies the interactions of atmospheric gases using mass spectrometry based techniques. | 3 | Atmospheric Chemists |
Boering was a postdoctoral fellow at Harvard University, where she worked with Steven Wofsy. At Harvard, Boering developed instrumentation to measure carbon dioxide mixing ratios in the upper troposphere. Boering used U-2 spy planes with high-altitude balloons, and made observations in Brazil, New Mexico, Alaska and New Zealand. In 1995 she was a scholar in the Radcliffe Institute for Advanced Study.
Boering was appointed to the faculty at University of California, Berkeley in 1998. She was made an Associate Professor with tenure in 2005. Boering works on photochemical isotope effects. She combines measurements from aircraft, high-altitude balloons and ground-based instruments to study atmospheric chemistry and climate. Boering combines global-scale measurements with computer simulations to study stable isotopes. Boering uses isotopes as tracers of atmospheric chemistry, for example, the triple isotope composition of atmospheric oxygen can be used to monitor biosphere productivity. She has also studied radiocarbon in the stratosphere. She is also interested in two and three-dimensional chemical transport models in the stratosphere. She investigates the exchange between biosphere and atmosphere gases on million and billion year timescales, studying the atmosphere, ice cores and rocks. Boering also studies the climate on other planets.
Boering demonstrated that the use of fertilizer was responsible for dramatic increases in the amount of nitrous oxide in the Earth's atmosphere. She studied firn air, an air sample from antarctic ice that was stored in Cape Grim. By studying the levels of nitrous oxide, Boering identified a well-known seasonal cycle, but surprisingly saw the same thing using isotope-ratio mass spectrometry.
Boering held an honorary professorship at the University of Copenhagen from 2008 to 2013. During 2014 she was an academic visitor at the Earth-Life Science Institute, working with Naohiro Yoshida. | 3 | Atmospheric Chemists |
He was married to Lois Bowler Vonnegut, with whom he had five sons. She died in 1972.
He died of cancer on April 25, 1997, at St. Peter's Hospital in Albany, New York.
His brother, Kurt Vonnegut, alluded to Bernards work in some of his works, most famously in Cats Cradle. | 3 | Atmospheric Chemists |
Francisco currently serves as the Presidents Distinguished Professor of Earth and Environmental Science and Professor of Chemistry at the University of Pennsylvania. He served as the [http://newsroom.unl.edu/releases/2014/04/25/Joseph+S.+Francisco+to+lead+UNL%27s+College+of+Arts+and+Sciences Dean] of [http://cas.unl.edu/ College of Arts and Sciences], Elmer H. and Ruby M.Cordes Chair in chemistry at University of Nebraska in Lincoln until 2018. He was president of the National Organization for the Professional Advancement of Black Chemists and Chemical Engineers from 2006 to 2008. He was appointed a senior visiting fellow at the Institute of Advanced Studies at the University of Bologna, Italy; Professeur Invité at the Université de Paris-Est, France; a visiting professor at Uppsala Universitet,Sweden; and an Honorary International Chair Professor, National Taipei University of Technology, Taiwan. He served as president of the American Chemical Society in 2010. He was elected as the Fellow of the American Academy of Arts and Sciences, 2010 and was elected member of the U.S. National Academy of Sciences in 2013. He also received the honorary Doctor of Science degree, Tuskegee University., 2010. President Barack Obama appointed Joseph S. Francisco, PhD, to serve on the Presidents Committee on the National Medal of Science for the period 2010–2012, 2012–2014.
In 2021 he was elected to the American Philosophical Society. | 3 | Atmospheric Chemists |
Solomon served on the Intergovernmental Panel on Climate Change. She was a contributing author for the Third Assessment Report. She was also co-chair of Working Group I for the Fourth Assessment Report. | 3 | Atmospheric Chemists |
Buccianti was born on 7 August 1960 in Florence. She earned a master's degree in stratigraphy from the University of Florence in 1988, including work done as a student with Agip, and completed a PhD at the University of Florence in 1994. She obtained a permanent research position at the university in 2001. | 1 | Geochemists |
* Димитров П. 1988. [https://www.researchgate.net/publication/312155281_Dalec_ot_bregove_i_farvateri_Far_from_the_coasts_and_waterways Далеч от брегове и фарватери]. Варна. Изд. „Галактика“. Библиотека „Нептун“, 161 с., doi:[https://doi.org/10.13140/RG.2.2.19449.36965/1 10.13140/RG.2.2.19449.36965/1]
* Димитров П., Д. Димитров. 2003. [https://www.researchgate.net/publication/290946364_Cerno_more_Potopt_i_drevnite_mitove Черно море, Потопът и древните митове]. „Славена“, Варна, ISBN 954-579-278-7, 91 с., doi:[https://doi.org/10.13140/RG.2.2.27133.05609 10.13140/RG.2.2.27133.05609]
** ((en)) Dimitrov P., D. Dimitrov. 2004. [https://www.researchgate.net/publication/290938137_The_Black_Sea_The_Flood_and_the_ancient_myths The Black Sea The Flood and the ancient myths]. „Slavena“, Varna, ISBN 954-579-335-X, 91 p., doi:[https://doi.org/10.13140/RG.2.2.18954.16327 10.13140/RG.2.2.18954.16327]
** ((ru)) Димитров П., Д. Димитров. 2008. [https://www.researchgate.net/publication/290946378_Cernoe_more_Potop_i_drevnie_mify Черное море, Потоп и древние мифы]. „Славена“, Варна, ISBN 954-579-278-7, 89 с., doi:[https://doi.org/10.13140/RG.2.2.23148.46729 10.13140/RG.2.2.23148.46729] | 1 | Geochemists |
*1991-1994 - NASA Graduate Student Fellowship in Global Change Research
*1993 - American Geophysical Union Atmospheric Sciences Section Outstanding Student Paper Award
*1994-1996 - National Research Council Research Associateship
*1999 - NASA New Investigator Award
*1999 - NASA Goddard Laboratory for Atmospheres Best Senior Author Publication Award
*2006 - Aldo Leopold Leadership Program Fellowship, Stanford Woods Institute for the Environment, Stanford University
*2011 - Google Science Communication Fellow
*2011 - Texas A&M University Sigma Xi Outstanding Science Communicator Award
*2012 - Atmospheric Sciences Section Ascent Award, American Geophysical Union
*2012 - H. Burr Steinbach Visiting Scholar, Woods Hole Oceanographic Institute
*2012 - Thompson Lecturer, National Center for Atmospheric Research
*2013 - Visiting Fellow Cooperative Institute for Research in Environmental Sciences
*2014 - Louis J. Battan Author's Award, American Meteorological Society
*2019 - Fellow of the American Geophysical Union
*2022 - "Friend of the Planet" award from the National Center for Science Education (NCSE) | 3 | Atmospheric Chemists |
Keith Christopher Rowley , (born 24 October 1949) is a Trinidadian politician serving as the seventh prime minister of Trinidad and Tobago, first elected into office on 9 September 2015 and again following the 2020 general election. He has led the People's National Movement (PNM) since May 2010 and was Leader of the Opposition from 2010 to 2015. He has also served as the Member of the House of Representatives for Diego Martin West since 1991. He is a volcanologist by profession, holding a doctorate in geology, specializing in geochemistry. | 1 | Geochemists |
For his scientific achievements Choi received the New Technology Development Award from the Ministry of Science & Technology (1992), the Special Award from Korean Society for Molecular & Cell Biology from the Korean Society of Molecular and Cellular Biology (1999), the 11th Sangrok Agriculture & Life Science Award from Seoul National University College of Agriculture (2002), the Excellent Monograph Award from the Korean Federation for Science & Technology Societies (2003), the 11th Hwanong Award from Hwanong Academy & Research Foundation (2004), the KSABC Award from the Korean Society for Applied Biology and Chemistry (2006), the 52nd NAS Award from the National Academy of Sciences, and the Top Scientist and Technologist Award of Korea from the Korean Federation of Science and Technology Societies () (2008). | 0 | Biochemists |
* 2014, Atmospheric Sciences Ascent Award, American Geophysical Union
* 2014, CAREER Award, National Science Foundation | 3 | Atmospheric Chemists |
Rowley entered politics in 1981, where he unsuccessfully contested the Tobago West seat in the general election of that year. To date he has the distinction of being the only People's National Movement candidate to have contested a seat in a General Election in both Tobago and Trinidad. He first served in Parliament as an Opposition Senator from 1987 to 1990 (3rd Parliament). Subsequently, he was appointed as Minister of Agriculture, Land and Marine Resources (4th Parliament), Minister of Planning and Development and Minister of Housing (as cabinet reshuffled) (8th Parliament) and Minister of Trade and Industry (9th Parliament) until he was fired by then Prime Minister Patrick Manning. | 1 | Geochemists |
* Johnson, M. S., Kuwata, K. T., Wong, C. K., & Okumura, M. (1996). Vibrational spectrum of I−(H2O). Chemical Physics Letters, 260(5-6), 551-557.
* Ueno, Y., Johnson, M. S., Danielache, S. O., Eskebjerg, C., Pandey, A., & Yoshida, N. (2009). Geological sulfur isotopes indicate elevated OCS in the Archean atmosphere, solving faint young sun paradox. Proceedings of the National Academy of Sciences, 106(35), 14784-14789.
* Schmidt, J. A., Johnson, M. S., & Schinke, R. (2013). Carbon dioxide photolysis from 150 to 210 nm: Singlet and triplet channel dynamics, UV-spectrum, and isotope effects. Proceedings of the National Academy of Sciences, 110(44), 17691-17696.
* Lynggaard, C., Bertelsen, M. F., Jensen, C. V., Johnson, M. S., Frøslev, T. G., Olsen, M. T., & Bohmann, K. (2022). Airborne environmental DNA for terrestrial vertebrate community monitoring. Current Biology, 32(3), 701-707.
* Li, Q., Meidan, D., Hess, P., Añel, J.A., Cuevas, C.A., Doney, S., Fernandez, R.P., van Herpen, M., Höglund-Isaksson, L., Johnson, M.S. and Kinnison, D.E., 2023. Global environmental implications of atmospheric methane removal through chlorine-mediated chemistry-climate interactions. Nature Communications, 14(1), p.4045. | 3 | Atmospheric Chemists |
Russells research is on how particles in the atmosphere effect climate, particularly aerosols from pollution sources such as automobiles. While Russell was at Princeton she developed the use of remote-controlled aircraft to collect atmospheric data. She has examined the factors controlling the production of organic aerosol particles in the atmosphere and the impact of aerosols on global warming. Russells research has defined the composition of organic compounds in atmospheric aerosols and linked the presence of aerosol particles in the atmosphere to the underlying seawater.
Russell has examined dust particles at multiple locations. Yang Yang and Russell used the Community Earth System Model to study aerosols above eastern China and observed that variability in the dust particles impacted the level of haze in the region. Within the United States, Russell has tracked aerosol particles from Las Vegas, Nevada into California. Russell has also demonstrated the feasibility of using biofuels during research cruises by replacing the diesel fuel with biofuel on the research vessel R.V. Robert Gordon Sproul and examining the resulting production of NO compounds, particulate material, and hydroxy radicals. | 3 | Atmospheric Chemists |
Rudd grew up in Bournemouth and attended Bournemouth School for Girls. As a child she wanted to be a physicist. Her uncle was a physicist, and Rudd joined the British Junior Astronomical Association. She was the only girl in a group of 48 boys, and said she was never allowed to look down the telescope. The male dominated environment of physics made Rudd consider a career in chemistry instead. When she was fourteen, she started to use washing machines and liquidisers to create rare sugars and sugar phosphates. She sold these chemicals through and co-founded Wessex Biochemicals. Rudd was an undergraduate chemistry student at Westfield College, then part of the University of London. After earning her degree, she joined Wessex Biochemicals which employed thirty people before being acquired by Sigma-Aldrich. She compelted her PhD in 1995 which was awarded by the Open University. | 0 | Biochemists |
Solomon, working with colleagues at the NOAA Earth System Research Laboratories, postulated the mechanism that the Antarctic ozone hole was created by a heterogeneous reaction of ozone and chlorofluorocarbons free radicals on the surface of ice particles in the high altitude clouds that form over Antarctica. In 1986 and 1987 Solomon led the National Ozone Expedition to McMurdo Sound, where the team gathered the evidence to confirm the accelerated reactions. Solomon was the solo leader of the expedition, and the only woman on the team. Her team measured levels of chlorine oxide 100 times higher than expected in the atmosphere, which had been released by the decomposition of chlorofluorocarbons by ultraviolet radiation.
Solomon later showed that volcanoes could accelerate the reactions caused by chlorofluorocarbons, and so increase the damage to the ozone layer. Her work formed the basis of the U.N. Montreal Protocol, an international agreement to protect the ozone layer by regulating damaging chemicals. Solomon has also presented some research which suggests that implementation of the Montreal Protocols is having a positive effect.
Using research work conducted by English explorer and navy officer Robert Falcon Scott, Solomon also wrote and spoke about Scotts 1911 expedition in The Coldest March: Scotts Fatal Antarctic Expedition to counter a longstanding argument that blamed Scott for his and his crew's demise during that expedition. Scott attributed his death to unforeseen weather conditions – a claim that has been contested by British journalist and author Roland Huntford. Huntford claimed that Scott was a prideful and under-prepared leader. Solomon has defended Scott and said that "modern data side squarely with Scott", describing the weather conditions in 1911 as unusual.
For her critical contribution to saving the ozone layer, Solomon was a winner of the 2021 Future of Life Award along with Joe Farman and Stephen O. Andersen. Dr. Jim Hansen, former Director of the NASA Goddard Institute for Space Studies and Director of Columbia Universitys Program on Climate Science, Awareness and Solutions said, "In Farman, Solomon and Andersen we see the tremendous impact individuals can have not only on the course of human history, but on the course of our planets history. My hope is that others like them will emerge in today's battle against climate change." Professor Guus Velders, a climate scientist at Utrecht University said, "Susan Solomon is a deserving recipient of the Future of Life Award. Susan not only explained the processes behind the formation of the ozone hole, she also played an active role as an interface between the science and policy of the Montreal Protocol." | 3 | Atmospheric Chemists |
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Wikipedia Diverse Specialties in Chemistry and Engineering Classification
This dataset is derived from the English Wikipedia articles and is designed for multi-class text classification tasks. The dataset encompasses a variety of specialties within the fields of chemistry and engineering, divided into five distinct classes based on professional focus:
Geochemists: This class includes articles that focus on geochemists, who study the chemical composition of the Earth and other planets. Topics may include the analysis of minerals, rocks, soil, and water, as well as the chemical processes and cycles that shape the Earth's crust and environment.
Biochemists: This class comprises articles related to biochemists, who investigate the chemical processes within and related to living organisms. Topics may cover enzyme function, metabolic pathways, genetic coding, and the molecular basis of diseases and biological functions.
Materials Scientists and Engineers: This class includes articles that focus on materials scientists and engineers, who study and develop new materials with specific properties and applications. Topics may include the synthesis, characterization, and application of metals, ceramics, polymers, and composites in various industries.
Atmospheric Chemists: This class comprises articles related to atmospheric chemists, who study the chemical composition and processes of the Earth's atmosphere. Topics may include air pollution, climate change, the ozone layer, and the interactions between the atmosphere and other environmental systems.
Electrochemists: This class includes articles that focus on electrochemists, who study the chemical changes that produce electrical effects and the interconversion of chemical and electrical energy. Topics may include batteries, fuel cells, electrolysis, and the applications of electrochemical processes in various technologies.
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