For outstanding scientific impact in computational soft matter and nanoscience through cross-discipline collaboration to address materials problems and discover new functional materials
Filter Corporate Fellows
Corporate Fellow Type
Year
- (-) 2013 (1)
- (-) 2009 (2)
- (-) 2006 (2)
- (-) 2005 (2)
- (-) 2004 (1)
- (-) 2002 (2)
- (-) 1999 (1)
- (-) 1998 (1)
- (-) 1989 (1)
- (-) 1985 (2)
- (-) 1979 (4)
- 2023 (4)
- 2022 (3)
- 2021 (2)
- 2020 (5)
- 2017 (1)
- 2016 (3)
- 2015 (3)
- 2014 (2)
- 2012 (1)
- 2011 (2)
- 2010 (1)
- 2008 (1)
- 2007 (1)
- 2003 (1)
- 2001 (1)
- 1997 (2)
- 1996 (2)
- 1994 (2)
- 1992 (1)
- 1990 (1)
- 1988 (1)
- 1987 (1)
- 1986 (1)
- 1983 (1)
- 1976 (2)
All Corporate Fellow summaries reflect the awardee and ORNL at the time the fellowship was awarded.
2013
2009
For far-reaching accomplishments on national security issues relating to nuclear weapons proliferation, security of nuclear materials, and counterterrorism.
For contributions to the methodology for electronic structure calculations and in applications to diverse classes of materials.
2006
For his leadership in light-water reactor development, reactor safety, and the disposition of uranium waste.
For contributions to high-performance networking and multiple-sensor fusion and for developing a unifying theory of information fusion.
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.
2004
For innovative research in nuclear structure physics, particularly in areas leading to a quantitative understanding of the excitation and decay of the elementary collective modes of nuclei, and for vision and scientific and technical leadership in building the Holifield Radioactive Ion Beam Facility into a forefront laboratory for nuclear science.
2002
For internationally recognized contributions in distributed and cluster computing, including the development of the Parallel Virtual Machine and the Message Passing Interface standard now widely used in science to solve computational problems in biology, physics, chemistry, and materials science.
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.