ITS 2018 Ceramah.Pptx

Total Page:16

File Type:pdf, Size:1020Kb

ITS 2018 Ceramah.Pptx Launched in 2013, Frontiers in Chemistry received its first Impact Factor of 4.155 and it has taken a leading position among Multidisciplinary Chemistry journals. 1 Goals for 2018 1) Grow with a strong focus on quality Increase submissions from top institutions Encourage Editors to submit and guest-edit article collections Develop 5+ themed article collections 2) Engage with the community Appoint more high-profile Editors Engage with younger researchers - “Rising Stars” article collection Strategic marketing and content promotion 2 Catalysis and Photocatalysis scope statement This Catalysis and Photocatalysis section provides a single forum to highlight all aspects of catalysis and photocatalysis, presenting a balanced mix of fundamental, experimental and technology-oriented work. Although the principles and basic mechanisms of catalysis and photocatalysis are fundamentally different, there is considerable overlap in the materials, experimental procedures, analytical methods or theories, and thus a mixed publication in this single forum provides significant inspiration and stimulation for sound progress in studies in both fields. Articles must show conceptual advances or novel insights into catalytic/ photocatalytic processes or demonstrate a correlation between synthesis, structure and performance of catalytic/photocatalytic systems. 3 4 salah kaprah https://hadinur.net/2017/07/18/salah-kaprah- dalam-memandang-prestasi-keilmuan/ website https://scholar.google.com/citations? user=BSpCwuQAAAAJ&hl=en website What is science? unambiguousness + text What is PhD? What is “research/study”? What is “originality”? 6 study (research/investigation) Scientist = doing research = researcher Study: not “learn” 7 study (research) • fundamental and applied • academic and industrial • valuable and not valuable • with or without objectives • with or without academic degree • public and private originality = to be origin not just “novel/new/first” 8 y 0 x originality = to be origin not just “novel/new/first” 9 originality • The first discovery is not a sole reason, since sometimes the first report has been neglected • Using a new, i.e., not used before, is not a reason for originality • Universality, i.e., simple explanation applicable to wide range of known results, make people impressed • Observe results to find intrinsic law, i.e., generalization = Everybody knows the results but not “principle” • The quality of originality becomes higher when many people know the results • Researchers want, non-conciously or conciously, people to feel “overcome’ and the same time feel “overcome” by the other researchers, scientific rivals • Presentation: finding a way to give strong impact, feeling of “overcome” at presentation and paper 10 requirements for scientist to get and to show orginality • Being skeptic • Experiences to be “overcome” • Strong will to make people jobbed/overcome = preparation and being conscious during the course of investigation • Ability for communication = making it in “text” 11 paper order for showing order in paper format orginality • Title • Conclusion • Abstract/keywors • Title • Introduction • Introduction • Experimental • Results and • Results and discussion discussion • Abstract/keywords • Conclusion • Experimental • References • References 12 hat-trick A hat-trick is the achievement of a positive feat three times in a game, or another achievement based on the number three 13 “hat-trick” in science Q What is “hat-trick” in science? “Name” is recorded in an award, e.g. Nobel Prize name of reaction or principle unit name of societies or journal adjective Q Who is/are “hat-trick” in science? Issac Newton, Michel Faraday, Max Planck, Marie Curie, Ernerst Rutherford, Albert Einstein 14 Q Who is “hat-trick + 1” in science? Irving langmuir (1881-1975) an award, e.g. Nobel Prize 1932 in Chemistry name of reaction or principle .. Isotherm/ … blodget film unit Langmuir, a unit of “exposure” name of societies or journal Langmuir adjective Langmurian 15 Solvay Conference 1927 First row: Irving Langmuir, Max Planck, Marie Curie, Hendrik Lorentz, Albert Einstein, Pierre Langevin, Charles Eugene Guye, C. T. R. Wilson, Owen W. Richardson. Second row: Peter Debye, Martin Knudson, W. Lawrence Bragg, Hans Kramer, Paul Dirac, Arthur Compton, Louis de Broglie, Max Born, Niels Bohr. Third row: Auguste Piccard, Émile Henriot, Paul Ehrenfest, Edouard Herzen, Théophile de Donder, Erwin Schrodinger, Jules-Emile Vershaffelt, Wolfgang Pauli, Werner Heisenberg, Ralph Howard Fowler, Leon Brillouin 16 Today’s topic = what is the goal of scientist hat-trict (1) Simple and easily understandable (2) open for everybody overcome succeed in dealing with (a problem or difficulty) 17 .
Recommended publications
  • New 78 Covers
    NATIONAL ACADEMY OF SCIENCES ROBERT SANDERSON MULLIKEN 1896–1986 A Biographical Memoir by R. STEPHEN BERRY Biographical Memoirs, VOLUME 78 PUBLISHED 2000 BY THE NATIONAL ACADEMY PRESS WASHINGTON, D.C. Photo credit: Photo by Harris & Ewing, Washington, D.C. ROBERT SANDERSON MULLIKEN June 7, 1896-October 31, 1986 BY R. STEPHEN BERRY OBERT S. MULLIKEN WAS a quiet, soft-spoken man, yet so R single-minded and determined in his devotion to under- standing molecules that he came to be called “Mr. Molecule.” If any single person’s ideas and teachings dominated the development of our understanding of molecular structure and spectra, it surely was Robert Mulliken. From the begin- ning of his career as an independent scientist in the mid- 1920s until he published his last scientific papers in the early 1980s, he guided an entire field through his penetrat- ing solutions of outstanding puzzles, his identification (or discovery) and analysis of the new major problems ripe for study, and his creation of a school—the Laboratory of Molecular Structure and Spectroscopy or LMSS at the University of Chicago, during its existence the most impor- tant center in the world for the study of molecules. Robert’s background led him naturally into academic sci- ence. He was born in Newburyport, Massachusetts, in a house built by his great-grandfather in about 1798. His father, Samuel Parsons Mulliken, was a professor of chemistry at MIT, which made him a daily commuter between Newburyport and Boston. Samuel Mulliken and his child- hood friend and later MIT colleague Arthur A. Noyes were 3 4 BIOGRAPHICAL MEMOIRS strong influences stirring Robert’s interests in science.
    [Show full text]
  • Curriculum Vitae Daniel M
    CURRICULUM VITAE DANIEL M. NEUMARK Personal: Born March 27, 1955; Chicago, Illinois Degrees: Ph.D., Physical Chemistry, University of California, Berkeley 1984 Thesis Advisor: Professor Yuan T. Lee Thesis Title: High Resolution Reactive Scattering M.A., Chemistry, Harvard University, 1977 B.A., Chemistry and Physics, Harvard University, 1977 (with highest honors) Honors and Awards: Peter Debye Award in Physical Chemistry, American Chemical Society, 2019 Bourke Award, Royal Society of Chemistry, 2018 Member, National Academy of Sciences, 2015 Fellow, Royal Society of Chemistry, 2013 Chemical Dynamics Award, Royal Society of Chemistry, 2013 Herbert P. Broida Prize, American Physical Society, 2013 Fellow, American Chemical Society, 2010 Dudley R. Herschbach Medal, 2009 Irving Langmuir Award in Chemical Physics, American Chemical Society, 2008 William F. Meggers Award, Optical Society of America, 2005 Visiting Röentgen Professor, University of Würzburg, 2002 Bomem-Michelson Award, 2002 ACS Nobel Laureate Signature Award, 2001 (with Martin Zanni) Fellow of American Academy of Arts and Sciences, 2000 Miller Research Professorship, UC Berkeley, 1999 - 2000 Alexander von Humboldt Senior Scientist, 1997 Fellow, American Association for the Advancement of Science, 1994 Invited Professor, University of Paris-Sud, Orsay, France, 1993 Fellow, American Physical Society, 1993 Camille and Henry Dreyfus Teacher-Scholar Award, 1991 Alfred P. Sloan Fellowship, 1989 National Science Foundation Presidential Young Investigator Award, 1988 Office of Naval Research
    [Show full text]
  • Pauling-Linus.Pdf
    NATIONAL ACADEMY OF SCIENCES L I N U S C A R L P A U L I N G 1901—1994 A Biographical Memoir by J A C K D. D UNITZ Any opinions expressed in this memoir are those of the author(s) and do not necessarily reflect the views of the National Academy of Sciences. Biographical Memoir COPYRIGHT 1997 NATIONAL ACADEMIES PRESS WASHINGTON D.C. LINUS CARL PAULING February 28, 1901–August 19, 1994 BY JACK D. DUNITZ INUS CARL PAULING was born in Portland, Oregon, on LFebruary 28, 1901, and died at his ranch at Big Sur, California, on August 19, 1994. In 1922 he married Ava Helen Miller (died 1981), who bore him four children: Linus Carl, Peter Jeffress, Linda Helen (Kamb), and Edward Crellin. Pauling is widely considered the greatest chemist of this century. Most scientists create a niche for themselves, an area where they feel secure, but Pauling had an enormously wide range of scientific interests: quantum mechanics, crys- tallography, mineralogy, structural chemistry, anesthesia, immunology, medicine, evolution. In all these fields and especially in the border regions between them, he saw where the problems lay, and, backed by his speedy assimilation of the essential facts and by his prodigious memory, he made distinctive and decisive contributions. He is best known, perhaps, for his insights into chemical bonding, for the discovery of the principal elements of protein secondary structure, the alpha-helix and the beta-sheet, and for the first identification of a molecular disease (sickle-cell ane- mia), but there are a multitude of other important contri- This biographical memoir was prepared for publication by both The Royal Society of London and the National Academy of Sciences of the United States of America.
    [Show full text]
  • Alfred O. C. Nier
    CHEMICAL HERITAGE FOUNDATION ALFRED O. C. NIER Transcript of Interviews Conducted by Michael A. Grayson and Thomas Krick at University of Minnesota Minneapolis, Minnesota on 7, 8, 9, and 10 April 1989 (With Subsequent Corrections and Additions) ACKNOWLEDGMENT This oral history is one in a series initiated by the Chemical Heritage Foundation on behalf of the American Society for Mass Spectrometry. The series documents the personal perspectives of individuals related to the advancement of mass spectrometric instrumentation, and records the human dimensions of the growth of mass spectrometry in academic, industrial, and governmental laboratories during the twentieth century. This project is made possible through the generous support of the American Society for Mass Spectrometry Upon Alfred O.C. Nier’s death in 1994, this oral history was designated Free Access. Please note: Users citing this interview for purposes of publication are obliged under the terms of the Chemical Heritage Foundation Oral History Program to credit CHF using the format below: Alfred O.C. Nier, interview by Michael A. Grayson and Thomas Krick at the University of Minnesota, Minneapolis, Minnesota, 7-10 April 1989 (Philadelphia: Chemical Heritage Foundation, Oral History Transcript # 0112). Chemical Heritage Foundation Oral History Program 315 Chestnut Street Philadelphia, Pennsylvania 19106 The Chemical Heritage Foundation (CHF) serves the community of the chemical and molecular sciences, and the wider public, by treasuring the past, educating the present, and inspiring the future. CHF maintains a world-class collection of materials that document the history and heritage of the chemical and molecular sciences, technologies, and industries; encourages research in CHF collections; and carries out a program of outreach and interpretation in order to advance an understanding of the role of the chemical and molecular sciences, technologies, and industries in shaping society.
    [Show full text]
  • Robert Mulliken
    NATIONAL ACADEMY OF SCIENCES ROBERT SANDERSON MULLIKEN 1896–1986 A Biographical Memoir by R. STEPHEN BERRY Biographical Memoirs, VOLUME 78 PUBLISHED 2000 BY THE NATIONAL ACADEMY PRESS WASHINGTON, D.C. Photo credit: Photo by Harris & Ewing, Washington, D.C. ROBERT SANDERSON MULLIKEN June 7, 1896-October 31, 1986 BY R. STEPHEN BERRY OBERT S. MULLIKEN WAS a quiet, soft-spoken man, yet so R single-minded and determined in his devotion to under- standing molecules that he came to be called “Mr. Molecule.” If any single person’s ideas and teachings dominated the development of our understanding of molecular structure and spectra, it surely was Robert Mulliken. From the begin- ning of his career as an independent scientist in the mid- 1920s until he published his last scientific papers in the early 1980s, he guided an entire field through his penetrat- ing solutions of outstanding puzzles, his identification (or discovery) and analysis of the new major problems ripe for study, and his creation of a school—the Laboratory of Molecular Structure and Spectroscopy or LMSS at the University of Chicago, during its existence the most impor- tant center in the world for the study of molecules. Robert’s background led him naturally into academic sci- ence. He was born in Newburyport, Massachusetts, in a house built by his great-grandfather in about 1798. His father, Samuel Parsons Mulliken, was a professor of chemistry at MIT, which made him a daily commuter between Newburyport and Boston. Samuel Mulliken and his child- hood friend and later MIT colleague Arthur A. Noyes were 3 4 BIOGRAPHICAL MEMOIRS strong influences stirring Robert’s interests in science.
    [Show full text]
  • 1 CURRICULUM VITAE RUDOLPH A. MARCUS Personal Information
    CURRICULUM VITAE RUDOLPH A. MARCUS Personal Information Date of Birth: July 21, 1923 Place of Birth: Montreal, Canada Married: Laura Hearne (dec. 2003), 1949 (three sons: Alan, Kenneth, and Raymond) Citizenship: U.S.A. (naturalized 1958) Education B.Sc. in Chemistry, McGill University, Montreal, Canada, 1943 Ph.D. in Chemistry, McGill University, 1946 Professional Experience Postdoctoral Research, National Research Council of Canada, Ottawa, Canada, 1946-49 Postdoctoral Research, University of North Carolina, 1949-51 Assistant Professor, Polytechnic Institute of Brooklyn, 1951-54; Associate Professor, 1954-58; Professor, 1958-64; (Acting Head, Division of Physical Chemistry, 1961-62) Member, Courant Institute of Mathematical Sciences, New York University, 1960-61 Professor, University of Illinois, 1964-78 (Head, Division of Physical Chemistry, 1967-68) Visiting Professor of Theoretical Chemistry, IBM, University of Oxford, England, 1975-76 Professorial Fellow, University College, University of Oxford, 1975-76 Arthur Amos Noyes Professor of Chemistry, California Institute of Technology, 1978-2012 Professor (hon.), Fudan University, Shanghai, China, 1994- Professor (hon.), Institute of Chemistry, Chinese Academy of Sciences, Beijing, China, 1995- Fellow (hon.), University College, University of Oxford, 1995- Linnett Visiting Professor of Chemistry, University of Cambridge, 1996 Honorable Visitor, National Science Council, Republic of China, 1999 Professor (hon.), China Ocean University, Qingdao, China, 2002 - Professor (hon.), Tianjin University, Tianjin, China, 2002- Professor (hon.) Dalian Institute of Chemical Physics, Dalian, China, 2005- Professor (hon.) Wenzhou Medical College, Wenzhou, China, 2005- Distinguished Affiliated Professor, Technical University of Munich, 2008- Visiting Nanyang Professor, Nanyang Institute of Technology, Singapore 2009- Chair Professor (hon.) University System of Taiwan, 2011 Distinguished Professor (hon.), Tumkur University, India, 2012 Arthur Amos Noyes Professor of Chemistry, California Institute of Technology, 1978-2013 John G.
    [Show full text]
  • Scientific Economic and Legal Issues* Hawking Auditorium, Mitchell Institute Texas A&M University April 18, 2016
    Energy and the Environment: Scientific Economic and Legal Issues* Hawking Auditorium, Mitchell Institute Texas A&M University April 18, 2016 8:00 AM – 8:30 AM Breakfast 8:30 AM – 9:00 AM Welcome and Introductions Marlan Scully, Director, IQSE John Junkins, Director, TIAS David M. Lee, Nobel Laureate in Physics, 1996 9:00 AM – 10:00 AM Carbon Capture, Utilization and Storage: A Multi‐scale Grand Challenge Christodoulos A. Floudas Director, Texas A&M Energy Institute, TAMU 10:00 AM – 10:30 AM Break 10:30 AM – 11:30 AM Climate Change, Energy and a Sustainable Low Cost Path Forward Steven Chu Nobel Laureate in Physics, 1997 Former U.S. Secretary of Energy 11:30 AM – 12:30 PM Energy and the Environment: Concerns for the Future Bruce A. McCarl Nobel Peace Prize, 2007 12:30 PM – 1:30 PM Lunch 1:30 PM – 2:30 PM Science, Policy and Power: The Supreme Court and Climate Change Kenneth W. Starr President and Chancellor, Baylor University 2:30 PM – 3:30 PM Energy Alternatives in the Economy of Texas Michael K. Young President, Texas A&M University 3:30 PM – 4:00 PM Break 4:00 PM – 5:00 PM A Medley of Molecular Parables Dudley Herschbach Nobel Laureate in Chemistry, 1986 Reception and Dinner at the Clayton W. Williams, Jr. Alumni Center 6:30 PM Reception 7:00 PM Dinner *Sponsored by the Texas A&M University Institute for Advanced Study and the Institute for Quantum Science and Engineering Distinguished Speakers Climate Change, Energy and a Sustainable, Low Cost Path Forward The industrial and agricultural revolutions have profoundly transformed the world, but there have been unintended consequences.
    [Show full text]
  • William H. Miller's Curriculum Vitae
    Curriculum Vitae WILLIAM HUGHES MILLER Personal: Born: 16 March 1941, Kosciusko, Mississippi, USA Married: Margaret Ann Westbrook, (two daughters, Alison b. 1970, Emily b. 1972) Education and Positions: 1956-59 Provine High School, Jackson, MS, Valedictorian 1959-63 Georgia Institute of Technology, General Motors National Scholarship, B.S. 1963 (Chemistry), Phi Kappa Phi Cup (Valedictorian) 1963-67 Harvard University, National Science Foundation Fellow, A.M. 1964 (Chemistry) Ph.D. 1967 (Chemical Physics), E. Bright Wilson, Jr., Research Director 1967-68 NATO Postdoctoral Fellow, University of Freiburg, Germany 1967-69 Junior Fellow, Society of Fellows, Harvard University 1969-72 Assistant Professor, Department of Chemistry, University of California, Berkeley 1969-present Staff Senior Scientist, Chemical Sciences Division, Lawrence Berkeley National Laboratory 1972-74 Associate Professor, Department of Chemistry, University of California, Berkeley 1974-2010 Professor, Department of Chemistry, University of California, Berkeley 1984-88 Vice-Chairman, Department of Chemistry, University of California, Berkeley 1989-93 Chairman, Department of Chemistry, University of California, Berkeley 1998-2001 Chancellor’s Research Professor, University of California, Berkeley 1999-2012 Kenneth S. Pitzer Distinguished Professor of Chemistry, University of California, Berkeley 2012-present Kenneth S. Pitzer Distinguished Professor Emeritus, and Professor of the Graduate School, University of California, Berkeley 9/13 1 Honors: Alfred P. Sloan Research
    [Show full text]
  • Ústav Fyzikální Chemie Jaroslava Heyrovského
    Ústav fyzikální chemie J. Heyrovského, v.v.i. Akademie věd České republiky zve všechny zájemce na ústavní seminář, na kterém promluví profesor Dudley R. Herschbach (Nobelova cena za chemii 1986) Department of Chemistry and Chemical Bilogy Harvard University Cambridge, MA, U.S.A. na téma GLIMPSES OF CHEMICAL WIZARDRY Seminář se koná v pátek 29.června 2012 od 10:30 hodin v Brdičkově posluchárně ústavu v Praze 8, Dolejškova 3. Těšíme se na Vaši účast. Hosté jsou vítáni. Ústav fyzikální chemie J. Heyrovského, v.v.i. Akademie věd České republiky Glimpses of Chemical Wizardry Dudley R. Herschbach Department of Chemistry & Chemical Biology, Harvard In an evangelical spirit, three vignettes will be presented that have the character of molecular parables: stories with lessons that transcend the specific details. (1) How knowledge of the orientation of a methyl group with respect to a neighboring double bond, obtained from thermodynamics and spectroscopy, enabled chemists to synthesize the single biologically active form of a molecule that has 5 x 1021 different structural isomers. (2) The lack of a single methyl group on a particular amino acid among billions in each DNA molecule on the Y chromosome is found to result in an infertile female rather than a male. This mutation is rare, of frequency ~ 10-5. Consider how different human society would be if it were to become dominant! (3) Remarkable feats, such as synthesis of Indigo, a highly prized dye for many centuries, were achieved in the 19th century. Nothing was yet known about atomic structure and experimental tools were very modest; substances could be characterized just by measuring weights, melting and boiling temperatures, observing colors, odors, and tastes.
    [Show full text]
  • Biography of Michael Polanyi
    Short Biographies of Philosophizing Chemists Michael Polanyi (1891-1976) by Mary Jo Nye One of the most novel philosophers of sciences in the 20 th century was the physical chemist Michael Polanyi. His first group of philosophical essays ap- peared in 1946 under the title Science, Faith and Society (Oxford University Press, Oxford, 1946), followed by Personal Knowledge: Towards a Post- Critical Philosophy (University of Chicago Press, Chicago, 1958), The Tacit Dimension (Doubleday, New York, 1966), and other volumes. One of his notable philosophical interventions occurred at a conference in Oxford in 1961, where Thomas S. Kuhn summarized his thesis on paradigms, normal science, and scientific revolutions which would be published as The Structure of Scientific Revolutions (University of Chicago Press, Chicago, 1962). Po- lanyi followed up Kuhn’s presentation with the comment that he had been trying to call attention to the very view that Kuhn now was arguing, which is a view undercutting philosophical preoccupation with logical positivism and falsification. Scientists, Polanyi argued, are not heretics driven by skepticism, but rather are steadfastly committed to established beliefs and dogmas within the scientific community. It is the social scientific community, not a rational scientific method, that is the determining condition of scientific knowledge. 1 By way of example, Polanyi published two essays dealing with chemistry and drawing from his own researches in x-ray crystallography, solid-state science, and adsorption of gases on surfaces. 2 Born in Budapest, Polanyi completed a medical degree in 1913 and a Ph.D. in physical chemistry in 1917 at the University of Budapest.
    [Show full text]
  • Chemical Bonding: the Journey from Miniature Hooks to Density Functional Theory
    molecules Review Chemical Bonding: The Journey from Miniature Hooks to Density Functional Theory Edwin C. Constable * and Catherine E. Housecroft Department of Chemistry, University of Basel, BPR 1096, Mattenstrasse 24a, CH-4058 Basel, Switzerland; [email protected] * Correspondence: [email protected]; Tel.: +41-61-207-1001 Academic Editor: Antonio J. Mota Received: 10 May 2020; Accepted: 3 June 2020; Published: 5 June 2020 Abstract: Our modern understanding of chemistry is predicated upon bonding interactions between atoms and ions resulting in the assembly of all of the forms of matter that we encounter in our daily life. It was not always so. This review article traces the development of our understanding of bonding from prehistory, through the debates in the 19th century C.E. bearing on valence, to modern quantum chemical models and beyond. Keywords: bonding; valency; affinity, structure; history of science 1. Introduction Bonding is what separates chemistry from physics. If the understanding of atoms and their component particles belongs primarily to the realm of physics, then chemistry is concerned with the aggregation of atoms into chemical entities held together by bonds. If science is a language, and atoms are the letters, bonding is the mechanism by which the letters are combined into words. The International Union of Pure and Applied Chemistry (IUPAC) states that “there is a chemical bond between two atoms or groups of atoms in the case that the forces acting between them are such as to lead to the formation of an aggregate with sufficient stability to make it convenient for the chemist to consider it as an independent ‘molecular species’” [1].
    [Show full text]
  • Nobel Laureate Glenn T. Seaborg Honored with Endowed Chair; Chemistry Professor Alexander Pines Named Chairholder
    04.20.98 - Nobel Laureate Glenn T. Seaborg honored with end... http://www.berkeley.edu/news/media/releases/98legacy/04_20_... NEWS RELEASE, 04/20/98 Nobel Laureate Glenn T. Seaborg honored with endowed chair; chemistry Professor Alexander Pines named chairholder By Jane Scheiber BERKELEY -- Nobel Laureate Glenn T. Seaborg, who last year became the first living scientist to have an element named for him, has been honored again, this time with the establishment of the Glenn T. Seaborg Chair in Physical Chemistry at the University of California, Berkeley. The Chair was created through a generous endowment in tribute to Seaborg and the College of Chemistry. Endowed chairs, which provide a source of income to advance the scholarly activities of the appointed professor, also are one of the highest forms of campus recognition that a faculty member can receive. Alexander Pines, who has significantly advanced the field of nuclear magnetic resonance (NMR) spectroscopy, has been named to hold the Seaborg Chair. "It is a privilege indeed to be thus associated with my legendary colleague and good friend Glenn Seaborg," Pines says. "It is especially fitting that Glenn Seaborg, who has received the highest awards of the international and national scientific communities, be thus recognized at the institution where he earned his doctorate and where he has spent most of his career," said College of Chemistry Dean Alexis T. Bell. "We are enormously grateful to our anonymous benefactors." Bell added, "We anticipate that we will be able to recognize other distinguished faculty members as additional chairs are established in the future." Seaborg earned his Ph.D.
    [Show full text]