Nanoporous metalorganic frameworks :
Abstract not provided.
Publications
Nanoporous metal
Physical Removal of Metallic Carbon Nanotubes from Nanotube Network Devices Using a Thermal and Fluidic Process
Nanotechnology
Abstract not provided.
Advanced plastic scintillators
Abstract not provided.
Nanoscale Phase Segregation of a Molecular System using Metal-Organic Framework for Energy Transfer
Abstract not provided.
Development of an Analytical Bond Order Potential for C-H-Cu Systems
Abstract not provided.
Dislocation Behavior in Cd1-xZnxTe Crystals
Abstract not provided.
Atomistic potentials for palladium-silver hydrides
Abstract not provided.
First-Principles Investigation of Metal-Organic Frameworks for Photovoltaics
Abstract not provided.
The Impact of a New Bond Order Potential Modeling Approach on Optoelectronic Materials and Devices
Abstract not provided.
Bridgehead Imine Substituted Cyclopentadithiophene Derivatives: An Effective Strategy for Band Gap Control in Donor-Acceptor Polymers
Proposed for publication in Angewandte Chemie International Edition.
Abstract not provided.
Atomistic Potentials for Palladium-Silver Hydrides
Proposed for publication in Physical Review B.
Abstract not provided.
Bridging the gap between atomistic phenomena and continuum behavior in electrochemical energy storage processes
Abstract not provided.
Controlling donor-acceptor interfaces in excitonic devices using nanoporous metal-organic framework templates
Abstract not provided.
Probing the effects of nano-confinement on charge transfer in metal-organic frameworks
Abstract not provided.
An analytical bond-order potential for the Cd-Zn-Te ternary system
Proposed for publication in Physical Review B.
Abstract not provided.
Comparison of molecular dynamics with classical density functional and Poisson-Boltzmann theories of the electric double layer in nanochannels
Journal of Chemical Theory and Computation
Comparisons are made among Molecular Dynamics (MD), Classical Density Functional Theory (c-DFT), and Poisson-Boltzmann (PB) modeling of the electric double layer (EDL) for the nonprimitive three component model (3CM) in which the two ion species and solvent molecules are all of finite size. Unlike previous comparisons between c-DFT and Monte Carlo (MC), the present 3CM incorporates Lennard-Jones interactions rather than hard-sphere and hard-wall repulsions. c-DFT and MD results are compared over normalized surface charges ranging from 0.2 to 1.75 and bulk ion concentrations from 10 mM to 1 M. Agreement between the two, assessed by electric surface potential and ion density profiles, is found to be quite good. Wall potentials predicted by PB begin to depart significantly from c-DFT and MD for charge densities exceeding 0.3. Successive layers are observed to charge in a sequential manner such that the solvent becomes fully excluded from each layer before the onset of the next layer. Ultimately, this layer filling phenomenon results in fluid structures, Debye lengths, and electric surface potentials vastly different from the classical PB predictions. © 2012 American Chemical Society.
New Predictions and Experiments towards Dislocation-Free CdTe/CdS-Based Solar Cells
Abstract not provided.
Bond Order Potential Simulations of Dislocations in CdTe
Abstract not provided.
SORMA West: Advanced Plastic Scintillators
Abstract not provided.
Quantifying sources of charge variance in CdZnTe
Abstract not provided.
Molecular Dynamics Studies of Dislocations in CdTe Crystals
IEEE Transactions on Nuclear Science
Abstract not provided.
Highly ordered crystalline nanoporous frameworks for nano-heterojunction photovoltaics
Abstract not provided.
Electronic Properties of Photovoltaic Metal Organic Frameworks from First-principles Calculations
Abstract not provided.
Spectral- and Pulse-Shape Discrimination in Triplet-Harvesting Plastic Scintillators
IEEE Transactions on Nuclear Science
Abstract not provided.
Computational Design of Dislocation-Free CdTe Solar Cells
Abstract not provided.
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