Since 2001, Mike Simpson has been a group leader for the Nanofabrication Research Laboratory and theme leader in the Center for Nanophase Materials Sciences. His research focus includes noise biology, nano-enabled synthetic biology and controlled synthesis and directed assembly of carbon nanostructures.
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- 1992 (1)
- 1989 (1)
- 1987 (1)
- 1979 (4)
- 1976 (2)
All Corporate Fellow summaries reflect the awardee and ORNL at the time the fellowship was awarded.
2014
2009
For contributions to the methodology for electronic structure calculations and in applications to diverse classes of materials.
2008
For outstanding scientific, programmatic, and institutional contributions to ORNL in advanced computational structural mechanics and nuclear safety technologies.
2007
For his research on the effects of elevated levels of atmospheric carbon dioxide on terrestrial ecosystems.
2005
For studies of the electronic structure of molecules, computational chemistry, and high-performance algorithms and computing.
For developments in biomedical engineering and biotechnology, micromechanical devices, and nanoscale imaging and detection.
2002
For forefront studies of the fundamental science of actinide elements, through mendelevium, which employ novel experimental techniques, make systematic comparisons, and emphasize the role of the elements' electronic configurations.
1990
For fundamental studies of the microscopic structure of magnetic materials using neutron scattering methods, and for contributing to the development of neutron polarization analysis as a productive scientific technique.
1988
For fundamental contributions to many areas of theoretical solid-state physics that directly relate to experimental programs, including the electronic structure and magnetism of transition and rare-earth metals, metal-electrolyte interfaces, superconductivity, and physical properties of heavy fermion, mixed valent, and fractal materials
1986
For contributions to understanding plasma turbulence and the nonlinear properties of magnetohydrodynamic instabilities, especially their role in explaining the behavior of magnetically confined plasmas, and for development of new magnetic confinement concepts that overcome these limitations.