Class
• | 1. Mathematical and Physical Sciences | [X] |
Subdivision
• | 102. Chemistry and Chemical Biochemistry | [X] |
| 1 | Name: | Dr. Lia Addadi | | Institution: | Weizmann Institute of Science | | Year Elected: | 2020 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | International | | Living? : |
Living
| | Birth Date: | 1950 | | | | | Born in Padova, Italy, Prof. Lia Addadi obtained her MSc degree in organic chemistry at the Università degli Studi di Padova (1973) and earned a PhD in structural chemistry from the Weizmann Institute of Science in 1979. After conducting postdoctoral research at the Weizmann Institute and at Harvard University, she joined the ranks of the Institute’s Department of Structural Chemistry (now the Department of Structural Biology) in 1982. Prof. Addadi served as Head of the Department of Structural Biology (1994-2001) and as Dean of the Faculty of Chemistry (2001-2004). In 2008, she became Dean of the Feinberg Graduate School, a position she held until 2014. Since 2018, she is the President’s Advisor for Advancing Women in Science. She received numerous prizes and honors, among them the 1998 Prelog Medal in Stereochemistry, and the 2011 Aminoff Prize by the Swedish Royal Academy of Sciences. In 2017 she was elected to the US National Academy of Sciences, and in 2018 she received an honorary PhD from the ETH in Zurich.
In her research, Lia Addadi addresses questions related to the formation of crystals in organisms, either fulfilling a physiological function, or pathologically induced, such as in atherosclerosis or osteoporosis. She studies the interactions between crystals and their biological environments, spanning several orders of magnitude from the molecular level to the cell and tissue level. In collaboration with Steve Weiner she investigates the strategies and design principles of mineralized tissues in biomineralization, from the formation pathways to the architecture, and finally to structure-function relations.
Lia Addadi was elected a member of the American Philosophical Society in 2020. | |
2 | Name: | Dr. A. Paul Alivisatos | | Institution: | University of Chicago | | Year Elected: | 2015 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1959 | | | | | Dr. A. Paul Alivisatos is President of the University of Chicago where he also serves as Chair of the Board of Governors of Argonne National Laboratory and Chair of the Board of Directors of Fermi Research Alliance LLC, the operator of Fermi National Accelerator Laboratory. He is also the John D. MacArthur Distinguished Service Professor in the Department of Chemistry, the Pritzker School of Molecular Engineering, and the College.
Previously he was Executive Vice Chancellor and Provost and Samsung Distinguished Professor of Nanoscience and Nanotechnology at the University of California, Berkeley. He also direced the Kavli Energy Nanosciences Institute (ENSI), and held professorships in UC Berkeley’s departments of materials science and chemistry. In addition, he is a founder of two prominent nanotechnology companies, Nanosys and Quantum Dot Corp, now a part of Life Tech. He also served as Director of the Lawrence Berkeley National Laboratory (Berkeley Lab) until accepting the Vice Chancellor position in 2016. Dr. Alivisatos received a Bachelor's degree in Chemistry in 1981 from the University of Chicago and Ph.D. in Chemistry from UC Berkeley in 1986. He began his career with UC Berkeley in 1988 and with Berkeley Lab in 1991.
Groundbreaking contributions to the fundamental physical chemistry of nanocrystals are the hallmarks of Dr. Alivisatos’s distinguished career. His research breakthroughs include the synthesis of size- and shape-controlled nanoscrystals, and forefront studies of nanocrystal properties, including optical, electrical, structural and thermodynamic. In his research, he has demonstrated key applications of nanocrystals in biological imaging and renewable energy. He played a critical role in the establishment of the Molecular Foundry, a U.S. Department of Energy’s Nanoscale Science Research Center; and was the facility’s founding director. He is the founding editor of Nano Letters, a leading scientific publication in nanoscience.
Dr. Alivisatos has been recognized for his accomplishments, with awards such as the Wolf Prize in Chemistry, the Linus Pauling Medal, the Ernest Orlando Lawrence Award, the Eni Italgas Prize for Energy and Environment, the Rank Prize for Optoelectronics, the Wilson Prize, the Coblentz Award for Advances in Molecular Spectroscopy, the American Chemical Society Award for Colloid and Surface Science, the Von Hippel Award of the Materials Research Society, the 2014 ACS Materials Chemistry Award, and most recently, the National Medal of Science. In January 2017 he was awarded the National Academy of Sciences' Award in Chemical Sciences. He is a member of the National Academy of Sciences and the American Academy of Arts and Sciences. He was elected a member of the American Philosophical Society in 2015. | |
3 | Name: | Dr. William O. Baker | | Institution: | Princeton University & Guggenheim Foundation & Carnegie Mellon University | | Year Elected: | 1963 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1915 | | Death Date: | October 31, 2005 | | | |
4 | Name: | Dr. J. D. Baldeschwieler | | Institution: | California Institute of Technology | | Year Elected: | 1979 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1933 | | | | | John Dickson Baldeschwieler was born in New Jersey in 1933 and earned his Ph.D. from the University of California, Berkeley in 1959. After serving in the United States Army, he held assistant, associate and full professorships at Harvard University and Stanford University before joining the California Institute of Technology in 1973 as professor of chemistry and chairman of the division of chemistry and chemical engineering. From 1971-73 he also served as deputy director of the Office of Science and Technology in the White House. A member of the National Academy of Sciences and the American Academy of Arts & Sciences, Dr. Baldeschwieler pioneered the utilization of nuclear magnetic resonance and double resonance spectroscopy, nuclear Overhauser effects, ion cyclotron resonance and perturbed angular correlation spectroscopy in chemical problems. His latest contributions concentrate on the use of phospholipid vesicles in cancer diagnosis and therapy, on the development of scanning tunneling and atomic force microscopy for the study of molecules on surfaces, and on novel techniques for producing combinatorial arrays of oligonucleotides. He received the 2000 National Medal of Science for his contributions to science and public service, the American Chemical Society 2001 Award for Creative Invention and the 2003 Othmer Gold Medal of the Chemical Heritage Foundation. He is currently J. Stanley Johnson Professor Emeritus at the California Institute of Technology. | |
5 | Name: | Dr. Allen J. Bard | | Institution: | University of Texas at Austin | | Year Elected: | 1999 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1933 | | | | | In a career spanning more than 40 years at the University of Texas, Allen J. Bard has a distinguished research record in physical chemistry and electrochemistry. Currently the Hackerman-Welch Regents Chair of Chemistry, he has made fundamental contributions to photoelectrochemistry and heterogeneous photocatalysis and has been a pioneer in electrochemiluminescence. He has also been a major contributor to the physical characterization of electrodes modified with polymers, clays, and other multicomponent arrays. His work in basic science constitutes the underpinning of many industrial processes dealing with corrosion, electrolysis, and electrolytic purification, the production of photoelectrochemical diodes, electrochemistry in novel solvents under extreme conditions, electrochemical microscopy, and photoacoustic and photothermal spectroscopy. Dr. Bard is the recipient of numerous awards, including the Bruno Breyer Memorial Award of the Royal Australian Chemical Institute, the Luigi Galvani Medal of the Societá Chimica Italiana, the Sigillum Magnum of the Università di Bologna, the Award in Chemical Sciences of the National Academy of Sciences, the Welch Foundation Award in Chemistry, and the 2012 National Medal of Science. He was elected to the American Philosophical Society in 1999. | |
6 | Name: | Dr. Paul D. Bartlett | | Institution: | Harvard University & Texas Christian University | | Year Elected: | 1978 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1907 | | Death Date: | 10/11/97 | | | |
7 | Name: | Sir Derek H. R. Barton | | Institution: | Texas A & M University | | Year Elected: | 1978 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | International | | Living? : |
Deceased
| | Birth Date: | 1918 | | Death Date: | 3/16/98 | | | |
8 | Name: | Dr. Jacqueline K. Barton | | Institution: | California Institute of Technology | | Year Elected: | 1999 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1952 | | | | | Jacqueline K. Barton is the John G. Kirkwood and Arthur A. Noyes Professor of Chemistry, Emerita at the California Institute of Technology. She earned her A.B. at Barnard College and her Ph.D. in Inorganic Chemistry at Columbia University (1979). After a postdoctoral fellowship at Bell Laboratories and Yale University, she became an assistant professor at Hunter College, City University of New York. Soon after, she returned to Columbia University, becoming Professor of Chemistry in 1986. In the fall of 1989, she joined the faculty at Caltech, and from 2009-2019, she served as Chair of the Division of Chemistry and Chemical Engineering.
Professor Barton has pioneered the application of transition metal complexes to probe recognition and reactions of double helical DNA. In particular, she has carried out studies to elucidate electron transfer chemistry mediated by the DNA double helix, a basis for understanding long range DNA-mediated signaling in DNA damage, repair, and replication. Through this research, she has trained more than 100 graduate and postdoctoral students. Professor Barton has also served the chemistry community through her service on government and industrial boards. She served as a Director of the Dow Chemical Company for over twenty years and currently serves as a Director of Gilead Sciences.
Professor Barton has received many awards. These include the NSF Waterman Award, the American Chemical Society (ACS) Award in Pure Chemistry, a MacArthur Foundation fellowship, and the National Academy of Sciences Award in the Chemical Sciences. She was elected to the American Academy of Arts & Sciences, the National Academy of Sciences, the National Academy of Medicine, and the Royal Society of Chemistry. She received the 2010 National Medal of Science from President Obama, the 2015 ACS Priestley Medal, the highest award of the ACS, and the 2023 the Welch Award in Chemistry. Jacqueline Barton was elected to the American Philosophical Society in 1999 and became Vice President in 2021. | |
9 | Name: | Dr. Stephen J. Benkovic | | Institution: | Pennsylvania State University | | Year Elected: | 2002 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1938 | | | | | Stephen J. Benkovic received an A.B. in English literature and a B.S. in chemistry from Lehigh University in 1960 and a Ph.D. in organic chemistry with a minor in physical chemistry and biochemistry from Cornell University in 1963. He joined the faculty of Pennsylvania State University in 1965, has been Evan Pugh Professor since 1977 and has held the Eberly Chair in Chemistry since 1986. Dr. Benkovic's early immersion in the classics and in English literature has facilitated his coherent presentation of complicated processes at the chemistry/biology interface. In the laboratory, he uses a dazzling combination of methodologies to define the pathways by which separate and combined protein systems carry out the chemical conversions crucial to life processes, including DNA polymerization and replication. His studies of enzyme mechanisms led to inhibitor design and chemotherapeutic agents; those on catalytic antibodies clarify the connection between chemistry and immunology. His love of literature has been transmuted to service on editorial boards of sixteen scientific journals. He was the recipient of the Pfizer Award in Enzyme Chemistry from Pennsylvania State University in 1977, the Gowland Hopkins Award in 1986, the Repligen Award in 1989, the Alfred R. Bader Award of the American Chemical Society in 1995, the Christian B. Anfinsin Award in 2000, the National Medal of Science in 2010, and the NAS Award in Chemical Sciences in 2011. He is a member of the American Academy of Arts & Sciences, the National Academy of Sciences, the American Chemical Society, and the Royal Society. He was elected a member of the American Philosophical Society in 2002. | |
10 | Name: | Dr. R. Stephen Berry | | Institution: | University of Chicago | | Year Elected: | 2011 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1931 | | Death Date: | July 26, 2020 | | | | | R. Stephen Berry was the James Franck Distinguished Service Professor Emeritus of Chemistry at the University of Chicago. He had been at The University of Chicago since 1964; previously he was an Assistant Professor at Yale, and earlier, an Instructor at the University of Michigan. He is a Denver native, and in East High School, a Finalist in what was then the Westinghouse Science Talent Search. In September, 2011, he was inducted into the East High Alumni Heritage Hall. He went to Harvard, where he earned his A.B. and Ph.D., and met Carla Friedman, whom he married in 1955. In his career, he has worked on a variety of subjects ranging from strictly scientific matters to a variety of topics in policy. He has held visiting professorships at other universities, including the University of Copenhagen (1967 and 1979), the Université de Paris-Sud (1979-80), the University of Electro-Communications, Tokyo (1984), and Oxford University (1973-74, 1980 and in 1986-87, as the Newton-Abraham Professor). He spent 1994 at the Freie Universität Berlin as an awardee of the Humboldt Prize. He has close associations with the Aspen Center for Physics (Board of Directors, 1978-84) and was a co-founder of the Telluride Summer Research Center (now Telluride Science Research Center) (Board of Directors, 1984-present; President, 1989-93). In 1983 he was awarded a MacArthur Fellowship. He was a member of the National Academy of Sciences and was its Home Secretary from 1999 until 2003. He was also a Fellow of the American Academy of Arts and Sciences (Vice-President, 1987-90) and is a Foreign Member of the Royal Danish Academy. In 1997, he received the Heyrovsky Medal of the Czech Academy of Sciences. In 2010, he received a Diploma Science Honoris Causa from the Romanian Medical Society. His scientific research has been both theoretical and experimental, in areas of atomic and molecular clusters and chaos, topographies and dynamics of complex potential surfaces, atomic collisions and photoionization, protein dynamics and interactions, and, for many years, finite-time thermodynamics, a new approach to extend thermodynamics toward energy efficiency. His experimental work included studies of negative ions, detection and reactions of transient molecular species, photoionization and other laser-matter interactions. Some of his work outside traditional science has involved interweaving thermodynamics with economics and resource policy, including efficient use of energy. He has sometimes worked since the mid-1970s with issues of science and the law, and with management of scientific data. He has also worked in matters of scientific ethics and of some aspects of national security. His current scientific interests include the dynamics of atomic and molecular clusters, the basis of "guided" protein folding and other "structure-seeking" processes, and the thermodynamics of time-constrained processes and the efficient use of energy. He has been author or coauthor of five books, including one on thermodynamic optimization and one on the total social costs of coal and nuclear power. He was author or coauthor of over 530 published papers. | |
11 | Name: | Dr. John I. Brauman | | Institution: | Stanford University | | Year Elected: | 2004 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1937 | | Death Date: | 08/23/2024 | | | | | John I. Brauman earned a Ph.D. from the University of California, Berkeley in 1963 and joined the faculty at Stanford University later that year. He was named J. G. Jackson-C. J. Wood Professor of Chemistry in 1972, and since 1999 he has also served as Cognizant Dean for Natural Sciences at Stanford. Dr. Brauman was the first to show that the relative order of acidities and basicities of many simple organic compounds are reversed between gas phase and solution. He was then able to rationalize both the gas-phase and solution behavior and put them on a much more substantial footing. Dr. Brauman discovered a wealth of information about the dynamics of gas-phase ionic reactions, which again has revolutionized scientific thought. Dr. Brauman was the first to measure accurate electron affinities of molecules larger than diatomics, eventually determining these important quantities for a substantial number of chemically interesting important organic radicals. He has received the American Chemical Society's Award in Pure Chemistry in 1973, the Arthur C. Cope Scholar Award (1986) and the James Flack Norris Award in Physical-Organic Chemistry (1986). Recent honors include the National Academy of Sciences Award in the Chemical Sciences (2001), the Linus Pauling Medal (2002) and the J. Willard Gibbs Medal (2003). Dr. Brauman was elected to the National Academy of Sciences and the American Academy of Arts & Sciences in 1976. | |
12 | Name: | Dr. Ronald Breslow | | Institution: | Columbia University | | Year Elected: | 1980 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1931 | | Death Date: | October 25, 2017 | | | | | Ronald Breslow was born in Rahway, New Jersey in 1931. He received his undergraduate and graduate training at Harvard University, where he did his Ph.D. research with Professor R.B. Woodward. He then spent a year in Cambridge, England as a postdoctoral fellow with Lord Todd and came to Columbia University in 1956 as instructor in chemistry. He was the Samuel Latham Mitchill Professor of Chemistry at Columbia, one of twelve University Professors, and a former Chairman of the Department. Professor Breslow's research interests can be described generally as involving the design and synthesis of new molecules with interesting properties, and the study of these properties. Examples include the cyclopropenyl cation, the simplest aromatic system and the first aromatic compound prepared with other than six electrons in a ring. His work establishing the phenomenon of anti-aromaticity has involved the synthesis of novel molecules, as well as their study. Even in work on purely mechanistic questions, such as his discovery of the chemical mechanism used by thiamine (vitamin B-1) in biochemical reactions, the synthesis and study of novel molecules played an important role. Although he continued his interest in unusual conjugated systems, his major emphasis in later years was on the synthesis and study of molecules that imitate enzymatic reactions. This work has included the development of remote functionalization reactions and the development of artificial enzymes. He developed a new group of cytodifferentiating agents with potential use in cancer chemotherapy. He is the author of over 400 publications. Professor Breslow was a member of the National Academy of Sciences (Chairman of the Chemistry Division 1974-77), the American Academy of Arts & Sciences and the European Academy of Science. He was elected a member of the American Philosophical Society in 1980. He was on the editorial board of a number of scientific journals, and had held over 150 named and visiting professorships. His major scientific awards include the American Chemical Society Award in Pure Chemistry (1966), the Baekeland Medal (1969), the Harrison Howe Award (1974), the Remsen Prize (1977), the Richards Medal (1984), the Allan Day Award (1990) and the U.S. National Medal of Science (1991). He won the Welch Award in Chemistry in 2003 and the Willard Gibbs Award in 2004 and also received the Mark Van Doren Medal of Columbia University and the Columbia University Great Teacher Award. Dr. Breslow added the 2010 Perkin Medal and the 2014 American Institute of Chemists Gold Medal to his long list of awards. Ronald Breslow died October 25, 2017, at the age of 86. | |
13 | Name: | Dr. Melvin Calvin | | Institution: | University of California, Berkeley | | Year Elected: | 1960 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1911 | | Death Date: | 1/8/97 | | | |
14 | Name: | Dr. Robin J. H. Clark | | Institution: | University College London | | Year Elected: | 2010 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | International | | Living? : |
Deceased
| | Birth Date: | 1935 | | Death Date: | December 6, 2018 | | | | | Robin Clark’s work employing Raman microscopy changed the thinking of art historians and conservators on much artwork and many archaeological artifacts. His identification of the blue pigment on the priceless Lindisfarne Gospels (715 AD) in the British Library as solely indigo, not lazurite, removed the need for the then (2004) current but improbable proposition that trade in lazurite from Afghanistan to Northumbria existed in 715 AD; in fact we know from Clark’s work that it was not established until more than two centuries later. The identification of key pigments on "Young Woman Seated on a Virginal" provided persuasive evidence consistent with a reattribution of this painting to Vermeer, in consequence of which it was sold in London for 30 million dollars in 2004. However, many Egyptian papyri supposedly worth $3 million each and dating to 1250 BC were easily identified to have been illuminated with at least 7 modern pigments, including copper phthalocyanine blue (first made in Manchester in 1936); they thus proved to be virtually worthless. Robin Clark was elected a member of the American Philosophical Society in 2010. He died in London on December 6, 2018 at the age of 83. | |
15 | Name: | Dr. F. Albert Cotton | | Institution: | Texas A & M University | | Year Elected: | 1992 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1930 | | Death Date: | February 20, 2007 | | | |
16 | Name: | Dr. Bryce Crawford | | Institution: | University of Minnesota | | Year Elected: | 1971 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1914 | | Death Date: | September 16, 2011 | | | | | Physical chemist Bryce Crawford, Jr. was associated with the University of Minnesota since 1940. He became a professor of physical chemistry there in 1946 and also served as chairman of the department and dean of the graduate school. At the time of his death he was Regent's Professor Emeritus. Dr. Crawford achieved prominence in the field of spectroscopy. He published the first of an influential series of papers on vibrational spectral intensities in 1950, systematically developed experimental techniques in areas such as infrared intensities and also carried out a wide range of investigations on molecular force fields, or the stiffness of chemical bonds. He had contributed significantly to the theory of molecular vibrations as well. Dr. Crawford was a member of the National Academy of Sciences and held a Ph.D. from Stanford University. He was elected a member of the American Philosophical Society in 1971. | |
17 | Name: | Dr. Paul J. Crutzen | | Institution: | Max Planck Institute for Chemistry | | Year Elected: | 2007 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | International | | Living? : |
Deceased
| | Birth Date: | 1933 | | Death Date: | January 28, 2021 | | | | | Paul Crutzen was a professor at the Scripps Institution of Oceanography's Center for Atmospheric Sciences from 1992 to 2008. He was also Professor Emeritus at the Institute for Marine and Atmospheric Sciences, Utrecht University, and the former director of the Max Planck Institute for Chemistry. He has made substantial and fundamental contributions to our understanding of the formation and decomposition of ozone - processes that are also affected by our emissions of different kinds of gas. In particular, he has shown the importance of nitrogen oxides for the ozone balance. Crutzen has also made contributions to the understanding of how the reactions that decompose ozone are considerably reinforced by cloud particles in the stratosphere. That the dilution of the ozone layer is strongest just above the poles of the earth - in particular over Antarctica - is due to this effect. The extremely low temperatures lead to the creation of a very large amount of cloud particles. Research on the chemical mechanisms in the ozone layer has shown signs of the negative impact of humans. There are now far-reaching international agreements on the prohibition of emission of freons and other gases destroying ozone in the so-called Montreal Protocol. Crutzen has also studied how ozone is created in the lower stratum of the atmosphere, the troposphere, where the amount of ozone has increased in the last century due to car exhausts and other emissions. Besides contributing to the greenhouse effect, ozone close to the ground also causes damage to crops and human health. Paul Crutzen shared the 1995 Nobel Prize in Chemistry with Mario Molina and Sherwood Rowland. His most recent interests are in the following areas: global modeling of atmospheric chemical processes (2-D, 3-D) for troposphere, stratosphere and lower mesosphere; interactions of atmospheric chemistry with climate; studies of the potential role of halogen photochemistry with ozone in the marine boundary layer; and tropospheric chemistry, including the role of biomass burning in the tropics and subtropics. More recently Crutzen has involved himself with studies of geo-engineering to reduce the heating of Earth's climate by carbon dioxide emissions. He also published a paper showing that the production of biofuels (e.g. ethanol from maize and biodiesel from rapeseed) to replace fossil fuels may not cool climate. Crutzen also proposed that over the past 200 years human activities have grown so much that the introduction of a new geologic epoch, the Anthropocene, is justified. He died on January 28, 2021. | |
18 | Name: | Dr. Peter B. Dervan | | Institution: | California Institute of Technology | | Year Elected: | 2002 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Living
| | Birth Date: | 1945 | | | | | Peter B. Dervan received a Ph.D. from Yale University in 1972. He joined the faculty of the California Institute of Technology in 1973 and is currently the Bren Professor of Chemistry. He served as chair of the Division of Chemistry and Chemical Engineering, 1994-99. Peter Dervan is distinguished in the field of bioorganic chemistry for working out chemical principles for sequence-specific recognition of DNA. He created synthetic small molecules with affinities and sequence specificities for double-helical DNA comparable to nature's proteins that can be programmed to control gene expression in living cells. Dr. Dervan is the recipient of numerous awards, including the ACS Nobel Laureate Signature Award for Graduate Education in Chemistry (1985); the Arthur C. Cope Award (1993); the Willard Gibbs Medal (1993); the Nichols Medal (1994); the Maison de la Chimie Foundation Prize (1996); the Remsen Award (1998); the Kirkwood Medal (1998); the Alfred Bader Award (1999); the Max Tishler Prize (1999); the Linus Pauling Medal (1999); the Richard Tolman Medal (1999); the Tetrahedron Prize for Creativity in Organic Chemistry (2000); the Harvey Prize (2002); the Ronald Breslow Award for Achievement in Biomimetic Chemistry (2005) and the National Medal of Science (2006). Dr. Dervan is a member of the National Academy of Sciences, the American Academy of Arts & Sciences, the Institute of Medicine (NAS), the National Academy of Inventors, the French Academy of Sciences, and the Germany Academy of Natural Scientists Leopoldina. He was elected a member of the American Philosophical Society in 2002. | |
19 | Name: | Dr. Christopher Martin Dobson | | Institution: | University of Cambridge | | Year Elected: | 2018 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | International | | Living? : |
Deceased
| | Birth Date: | 1949 | | Death Date: | September 8, 2019 | | | | | Christopher Dobson's research greatly clarified the process of protein misfolding and its link to degenerative diseases. As a result, he contributed to the scientific understanding of Alzheimer's and Parkinson's diseases. He published over 800 papers and review articles. Additionally, his publications are unusually impactful, being cited frequently in the research of others. In addition to leading his productive research group, Dobson effectively performed the role of Master of St. John's College, notably by leading the expansion of full bursaries for disadvantaged students. Among his numerous honors is the Royal Medal, awarded to him in 2009 by the Royal Society, of which he was a member. Christopher Dobson was elected a member of the American Philosophical Society in 2018. He died September 8, 2019 in London, England at the age of 69. | |
20 | Name: | Dr. Harry G. Drickamer | | Institution: | University of Illinois | | Year Elected: | 1983 | | Class: | 1. Mathematical and Physical Sciences | | Subdivision: | 102. Chemistry and Chemical Biochemistry | | Residency: | Resident | | Living? : |
Deceased
| | Birth Date: | 1918 | | Death Date: | May 6, 2002 | | | |
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