Berhane Temelso is currently
a computational chemistry research scientist working at Furman University.
The award recognized the quality of
her computational chemistry research as well as the design of her poster and her ability to share her insights.
Not exact matches
OIST researchers conduct multi-disciplinary
research in neuroscience, mathematical and
computational sciences, physics,
chemistry, integrative biology and molecular, cell, and developmental biology.
As a graduate student, he pursued some projects in
computational chemistry and realized that this is a fertile area for undergraduate - level
research.
«Three major life sciences organizations, ASM, ACS and APS, came together to provide scientists with the unique opportunity of bringing together experts from different
research areas to move this very exciting field forward,» said Stefano Bertuzzi, CEO, ASM, «The Kavli Ideas Challenge allowed for the collaboration between different scientific communities that span
computational biology, physics and analytical
chemistry to develop important new
research tools.»
The School will focus on first - and second - year graduate students in the
computational molecular sciences (bio - and macro-molecular simulation, quantum
chemistry, and materials science) whose
research requires a firm foundation in software engineering and programming.
Theresa develops new methods and algorithms for high performance
computational chemistry as well as applying those techniques to both basic and applied
research.
I got a new laboratory of
research in bioinformatics and
computational chemistry, in which we develop mostly studies in drug design and in silico evaluation of environmental pollutants, and I also proposed a new master program in Bioinformatics.
While at Mt. Holyoke she
researched surface
chemistry and catalysis using
computational methods with Dr. Bret Jackson at the University of Massachusetts Amherst.
Specialism: Accelerators, neutron & light sources, Acoustics, Astronomy, cosmology & space science, Atomic & molecular science, Biophysics & bioengineering,
Computational science & software engineering, Condensed matter, Defence & aerospace, Earth & environmental science, Education & communications, Electronics & semiconductors, Energy & renewables, Engineering & instrumentation, Materials science, Mathematics & statistics, Medical physics, cancer
research & oncology, Metrology & measurement science, Nanotechnology, Neuroscience, Nuclear, fusion & energy, Optics, lasers & photonics, Physical
chemistry, Plasma science & technology, Quantum science & technology, Science policy & patents, Technical sales & commercial
Located at Lawrence Berkeley National Laboratory, the NERSC Center serves more than 6,000 scientists at national laboratories and universities
researching a wide range of problems in combustion, climate modeling, fusion energy, materials science, physics,
chemistry,
computational biology, and other disciplines.
Research in the Bredas group focuses on
computational materials
chemistry:
computational methods are used as a tool to uncover the properties of novel advanced materials, understand their
chemistry and physics, and derive an integrated understanding of the intrinsic molecular - and nano - scale processes in a variety of emerging applications (such as solar cells or low - power displays), especially in the fields of organic electronics, photonics, and information technology.
He has authored over 600
research papers on theoretical and
computational chemistry.
Research Centers will address scientific problems that are inherently interdisciplinary and will require scientific expertise and technological capabilities that span the physical and biological sciences, including genomics, microbial and plant biology, analytical
chemistry,
computational biology and bioinformatics, and engineering.
Applied
computational chemistry methods to find transition state complexes and activation energies of catalyzed reactions to determine mechanistic reaction steps consistent with experimental
research reported in literature