Medard W. Welch Award
Encyclopedia
The award is given to scientists who demonstrated outstanding research in the fields pertinent to American Vacuum Society
. It was established in 1969 in memory of Memory of Medard W. Welch, a founder of American Vacuum Society
. The prestige of the award is created by its recipients and their important contributions to science and technology.
American Vacuum Society
AVS: Science and Technology of Materials, Interfaces, and Processing is a not-for-profit learned society founded in 1953. AVS is a member society of the American Institute of Physics. AVS has approximately 5000 members worldwide from academia, governmental laboratories and industry...
. It was established in 1969 in memory of Memory of Medard W. Welch, a founder of American Vacuum Society
American Vacuum Society
AVS: Science and Technology of Materials, Interfaces, and Processing is a not-for-profit learned society founded in 1953. AVS is a member society of the American Institute of Physics. AVS has approximately 5000 members worldwide from academia, governmental laboratories and industry...
. The prestige of the award is created by its recipients and their important contributions to science and technology.
List of recipients
| Year | Recipient | Citation |
|---|---|---|
| 2009 | Robert Hamers | |
| 2008 | Miquel Salmeron | "For seminal contributions to the development of surface characterization techniques usable in a variety of environments and their application to catalysis, tribology and related surface phenomena." |
| 2007 | Jerry Tersoff Jerry Tersoff Jerry Tersoff is a Research Staff Member at the IBM Thomas J. Watson Research Center. His work spans diverse topics in the theoretical understanding of surfaces, interfaces, electronic materials, epitaxial growth, and nanoscale devices... |
“for seminal theoretical contributions to the understanding of surfaces, interfaces, thin films and nanostructures of electronic materials.” |
| 2006 | John C. Hemminger | "For outstanding contributions to the development of quantitative, molecular level understanding of many important interfacial processes, especially those related to atmospheric chemistry." |
| 2005 | Charles S. Fadley | "For the development of novel techniques based on photoelectron spectroscopy and synchrotron radiation, and their application to the study of the atomic, electronic, and magnetic structure of surfaces and buried interfaces." |
| 2004 | Rudolf M. Tromp | "For fundamental discoveries in epitaxial growth and elucidation of their applications to technological problems." |
| 2003 | Matthias Scheffler | "For developing Density Functional Theory Density functional theory Density functional theory is a quantum mechanical modelling method used in physics and chemistry to investigate the electronic structure of many-body systems, in particular atoms, molecules, and the condensed phases. With this theory, the properties of a many-electron system can be determined by... methods to describe surface chemical reactions and enabling their widespread use." |
| 2002 | Buddy D. Ratner Buddy Ratner Buddy Ratner is an American professor of chemical engineering and bioengineering. He is the director of the Research Center for Biomaterials at the University of Washington , and ranks among the leading contemporary researchers in the field of biomaterial sciences... |
"For innovative research on biomaterial interfaces and establishing the field of biomaterials surface science." |
| 2001 | Ward Plummer Ward Plummer E. Ward Plummer is an American physicist. His main contributions are in surface physics of metals. Plummer is a Professor of Physics at Louisiana State University.-Biography:... |
"For the development of novel instrumentation, its use to illuminate new concepts in the surface physics of metals, and the mentoring of promising young scientists." |
| 2000 | D. Phillip Woodruff | "For contributions to the understanding of the geometric properties of clean and adsorbate-decorated surfaces, and for innovative development of surface science techniques." |
| 1999 | John H. Weaver | "For his seminal contributions to the atomic-level understanding of thin-film growth, interfacial interactions, and etching." |
| 1998 | David E. Aspnes David E. Aspnes David Erik Aspnes is a Distinguished University Professor and member of the Department of Physics at North Carolina State University. Formal education includes BS and MS degrees in electrical engineering from the University of Wisconsin–Madison and a Ph.D... |
"For novel applications and creative development of optical methods and effects for research on thin films, surfaces and interfaces which have significantly advanced the understanding of electronic materials and processes." |
| 1997 | Phaedon Avouris Phaedon Avouris Phaedon Avouris is a Greek American chemical physicist. He is an IBM Fellow and the group leader for Nanometer Scale Science and Technology at the Thomas J. Watson Research Center in Yorktown Heights, New York.-Education and Research Interests:... |
"For his seminal contributions to the understanding of the chemistry of semiconductor surfaces and for his development of the STM as a tool for probing and inducing surface chemical reactions with atomic scale resolution and control." |
| 1996 | Peter Feibelman | "For his insightful predications and explanations of surface phenomena based on first principles calculations. |
| 1995 | Gerhard Ertl | "For excellence in the use of modern methods for developing key concepts important to surface chemistry." |
| 1994 | John T. Yates, Jr. | "For the development and use of modern measurement methods to provide insights into the behavior of chemisorbed species on metal and semiconductor surfaces." |
| 1993 | George Comsa | "For seminal discoveries and investigations in vacuum and surface science, in particular the extensive development of thermal-energy atom scattering for the structural analysis of surfaces." |
| 1992 | Ernst G. Bauer Ernst G. Bauer Ernst G. Bauer is a German-American physicist. He is known for his studies in the field of surface science. His most notable contributions are his work on establishing thin film growth and nucleation mechanisms, and his invention of the low energy electron microscope... |
"For his contributions to the fundamental understanding of thin film nucleation and growth and for his invention, development and use of multiple surface characterization techniques to study those thin films." |
| 1991 | Max G. Lagally Max G. Lagally Max G. Lagally is Erwin W. Mueller Professor and Bascom Professor of Surface Science at the University of Wisconsin–Madison.-Education:*BS 1963, Pennsylvania State University*MS 1965, University of Wisconsin–Madison... |
"For outstanding contributions to the quantitative understanding of defects with respect to ordering and growth of surface structures." |
| 1990 | Jerry M. Woodall | "For seminal contributions to compound semiconductor science and technology." |
| 1989 | Robert Gomer Robert Gomer Robert Gomer is an Austrian scientist, known for his research on field electron emission and field ionization, and his role as an adviser to the United States government.... |
"For pioneering contributions to surface science, including definitive studies on the theory and application of field emission, chemisorption, and desorption phenomena." |
| 1988 | Peter Sigmund | "For theoretical contributions to the field of physical sputtering and related phenomena." |
| 1987 | Mark J. Cardillo | "For his innovative and pioneering research on the interaction of molecular beams with surfaces." |
| 1986 | Harald Ibach | "For the development of high resolution electron energy loss spectroscopy and its applications to the characterization of surfaces and absorbates." |
| 1985 | Theodore E. Madey | "For his investigations of surface processes at a fundamental atomic and molecular level, especially the determination of absorbed molecule bonding geometries." |
| 1984 | William E. Spicer | "For his contributions to the development and application of photoelectron spectroscopy in the study of the electronic structure and chemical properties of solids and their surfaces and interfaces." |
| 1983 | H.H. Wieder | "For his contributions to growth of thin semiconductor single crystal films, and most importantly, for research leading toward III-V MOS technology." |
| 1981 | Harrison E. Farnsworth | "For his pioneering studies of the preparation, structural characterization, and properties of atomically clean surfaces." |
| 1979 | Gert Ehrlich | "For contributions to our understanding of the microscopic force laws by which atoms residing on solid surfaces interact with the substrate and with each other." |
| 1978 | Georg H. Hass | "For techniques of preparation and characterization of thin films for optical coatings of importance to solar energy, space technology, and electro-optics." |
| 1977 | Charles B. Duke | "For far-reaching theoretical contributions to surface science and solid state physics in the areas of low energy electron diffraction, electron tunneling and the electronic structure of large organic molecules." |
| 1976 | Leslie Holland | "In recognition of his many important contributions to vacuum technology and to thin film and surface sciences." |
| 1975 | Paul A. Redhead | "In recognition of his distinguished contributions to the science of low pressure measurement and his far-reaching research on the properties and behavior of absorbed species." |
| 1974 | Homer D. Hagstrum | "For pioneering contributions to ultrahigh vacuum studies of solid surfaces, especially the incorporation into a single vacuum chamber of multiple experimental measurements oncontrolled, individual surfaces; the development of an experimental technique to measure with high precision the energy distribution of electrons ejected from surfaces by the neutralization of slow ions; and the conversion of this technique into aspectroscopy of the electronic structure of well-characterized solid surfaces by virtue of his elucidation of the nature of the physical mechanism of this neutralization process." |
| 1973 | Lawrence A. Harris | "For his pioneering work in the field of Auger electron spectroscopy. Dr. Harris was responsible for the key publication recognizing the potential of Auger electron spectroscopy as a surface analytical tool which he developed and demonstrated. His contribution has had far-reaching impact on the field of surface science and related technical activities." |
| 1972 - | Kenneth C.D. Hickman | "For his contributions in the development of condensation pumps and their working fluids and, in particular, for his discovery of the self-fractionating principle which has made these pumps possible." |
| 1971 | Gottfried K. Wehner | "For his pioneering work in the field of sputtering, which has profoundly influenced many other scientists and engineers." |
| 1970 | Erwin Wilhelm Müller Erwin Wilhelm Müller Erwin Wilhelm Müller was a German physicist who invented the Field Emission Electron Microscope , the Field Ion Microscope , and the Atom-Probe Field Ion Microscope... |
"For work including the development of field electron and field ion microscopy." |