Structural, electronic, and non-equilibrium charge transport properties of silicon-polymer interfaces
ORAL
Abstract
There is great interest in developing silicon-based electronic devices incorporating organic molecules as active components. In order to glean insights for applications of such devices in molecular electronics and photovoltaics contexts, we study paradigmatic organic-inorganic interfaces using first-principles calculations for pi-conjugated polymers in contact with H-passivated silicon surfaces. We describe the morphological and electronic properties of these hybrid structures, including interfacial charge transfer, band alignment, and non-equilibrium charge transport.
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Authors
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Joseph Turnbull
North Carolina State University , Department of Physics, Center for High Performance Simulation
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Wenchang Lu
North Carolina State University, Department of Physics, Center for High Performance Simulation; Oak Ridge National Laboratory, NC State U., Raleigh, CSMD, ORNL
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Jerry Bernholc
North Carolina State University, Department of Physics, Center for High Performance Simulation; Oak Ridge National Laboratory, NC State U and ORNL, NC State University, Raleigh, NC, and CSMD, ORNL, TN, NC State U., Raleigh, CSMD, ORNL