APS Fellowship
DMP Deadline for APS Fellowship Nomination: Friday, February 1, 2013 APS Fellowship InformationAPS Fellows Nominated by DMPĀ
Blick, Robert H. [2012]
University of Wisconsin, Madison
Citation: For his distinctive contributions to the physics of quantum dots and nanomechanical systems, and for his fine contributions to developing new on-chip screening methods for ion channel spectroscopy and mass spectroscopy of proteins
University of Wisconsin, Madison
Citation: For his distinctive contributions to the physics of quantum dots and nanomechanical systems, and for his fine contributions to developing new on-chip screening methods for ion channel spectroscopy and mass spectroscopy of proteins
Brock, Joel D. [2012]
Cornell University
Citation: For innovative time-resolved and in-situ synchrotron x-ray experiments on the structure, dynamics, and growth mechanisms of complex, low-dimensional systems, including liquid crystals, charge density wave systems, ion-bombarded surfaces, electrodeposition and pulsed-laser deposited complex oxides.
Cornell University
Citation: For innovative time-resolved and in-situ synchrotron x-ray experiments on the structure, dynamics, and growth mechanisms of complex, low-dimensional systems, including liquid crystals, charge density wave systems, ion-bombarded surfaces, electrodeposition and pulsed-laser deposited complex oxides.
Cammarata, Robert [2012]
Johns Hopkins University
Citation: For pioneering contributions to the thermodynamics and mechanics of surfaces, thin films, and nanomaterials, and to the synthesis, processing and mechanical behavior of nanocomposite thin films.
Johns Hopkins University
Citation: For pioneering contributions to the thermodynamics and mechanics of surfaces, thin films, and nanomaterials, and to the synthesis, processing and mechanical behavior of nanocomposite thin films.
Carpick, Robert W. [2012]
University of Pennsylvania
Citation: for his outstanding contributions to developing an atomic-level understanding of the tribological phenomena of friction, adhesion, and wear
University of Pennsylvania
Citation: for his outstanding contributions to developing an atomic-level understanding of the tribological phenomena of friction, adhesion, and wear
Chen, Gang [2012]
Massachusetts Institute of Technology
Citation: For pioneering contributions to the understanding of heat transfer at nanoscale and to the development of thermoelectric energy conversion technologies
Massachusetts Institute of Technology
Citation: For pioneering contributions to the understanding of heat transfer at nanoscale and to the development of thermoelectric energy conversion technologies
Gopalan, Venkatraman [2012]
Pennsylvania State University
Citation: For his insightful use of symmetry combined with optical and scanning probe methods to better understand domain walls and the influence of defects, rotations, and strain on ferroelectrics and multiferroics.
Pennsylvania State University
Citation: For his insightful use of symmetry combined with optical and scanning probe methods to better understand domain walls and the influence of defects, rotations, and strain on ferroelectrics and multiferroics.
Hersam, Mark C. [2012]
Northwestern University
Citation: For pioneering research on the fundamentals and applications of nanoelectronic materials, including the development of methods for sorting carbon nanotubes and graphene, and for chemical functionalization of semiconductor surfaces
Northwestern University
Citation: For pioneering research on the fundamentals and applications of nanoelectronic materials, including the development of methods for sorting carbon nanotubes and graphene, and for chemical functionalization of semiconductor surfaces
Kuk, Young [2012]
Seoul National University
Citation: For seminal work in understanding the geometric and electronic properties of carbon-based nanomaterials, including fullerenes, nanotubes and graphene, and pioneering contributions in the development of scanning probe microscopy and structural determination of material surfaces
Seoul National University
Citation: For seminal work in understanding the geometric and electronic properties of carbon-based nanomaterials, including fullerenes, nanotubes and graphene, and pioneering contributions in the development of scanning probe microscopy and structural determination of material surfaces
Lin, Jingyu [2012]
Texas Tech University
Citation: For her seminal contributions to our fundamental understanding of the electronic and optical properties of the group III-nitride semiconductors and her significant impact on the use of these materials for nanophotonic devices.
Texas Tech University
Citation: For her seminal contributions to our fundamental understanding of the electronic and optical properties of the group III-nitride semiconductors and her significant impact on the use of these materials for nanophotonic devices.
Mathur, Neil D. [2012]
University of Cambridge
Citation: For seminal contributions to the science and technology of magnetic and multiferroic oxides
University of Cambridge
Citation: For seminal contributions to the science and technology of magnetic and multiferroic oxides
McCartney, Matha R. [2012]
Arizona State University
Citation: For outstanding contributions to the development of off-axis electron holography and applications to the quantification of nanoscale electrostatic and magnetic fields
Arizona State University
Citation: For outstanding contributions to the development of off-axis electron holography and applications to the quantification of nanoscale electrostatic and magnetic fields
Ohno, Hideo [2012]
Tohoku University
Citation: For outstanding research in materials and device physics, especially the observation of ferromagnetism in magnetically doped III-V semiconductors and their application to spintronics.
Tohoku University
Citation: For outstanding research in materials and device physics, especially the observation of ferromagnetism in magnetically doped III-V semiconductors and their application to spintronics.
Redwing, Joan [2012]
Pennsylvania State University
Citation: For key contributions to the mechanistic understanding of materials synthesis by vapor growth, including Si and SiGe nanowires, group-III nitrides and boride-based superconductors.
Pennsylvania State University
Citation: For key contributions to the mechanistic understanding of materials synthesis by vapor growth, including Si and SiGe nanowires, group-III nitrides and boride-based superconductors.
Sinnott, Susan B. [2012]
University of Florida
Citation: For significant contributions developing and applying atomistic methods to investigate the physical and chemical properties of nanomaterials, material surfaces, and interfaces
University of Florida
Citation: For significant contributions developing and applying atomistic methods to investigate the physical and chemical properties of nanomaterials, material surfaces, and interfaces
Stemmer, Susanne [2012]
University of California, Santa Barbara
Citation: For major contributions to molecular beam epitaxy of oxide thin films, the development of new dielectrics for compound semiconductors, and the advancement of transmission electron microscopy as a quantitative tool in materials science.
University of California, Santa Barbara
Citation: For major contributions to molecular beam epitaxy of oxide thin films, the development of new dielectrics for compound semiconductors, and the advancement of transmission electron microscopy as a quantitative tool in materials science.
Zhang, Qiming [2012]
Pennsylvania State University
Citation: For his pioneering work in electroactive polymers in exploiting defect modifications to significantly enhance the performance of materials and in advancing their application for energy conversion and energy storage
Pennsylvania State University
Citation: For his pioneering work in electroactive polymers in exploiting defect modifications to significantly enhance the performance of materials and in advancing their application for energy conversion and energy storage