Index of Keywords

electronic properties

Quantum Design of Complex Nanostructured Electronic Materials

electronic properties.

A Coarse-Grained Tight Binding Method for Electrostatic Analysis of Nanoelectromechanical Systems (NEMS)

electronic sensing

Electronic Sensing of Antibodies using Carbon Nanotube Devices

electronic spectra

New Materials Design.Free-Base Porphyrin and Its Meso-Tetrahalogenated Derivatives

electronic state

Computer Simulation of Electron Energy States for Three-Dimensional InAs/GaAs Semiconductor Quantum Rings

Computer Simulation of Electron Energy States for Three-Dimensional InAs/GaAs Semiconductor Quantum Rings

electronic structure

Electronic Structure of Quantum Dots

Electronic Structure Modifications Induced by Nanosize Lattice Imperfections in Molecular Crystals

Chemical Decomposition of Solid Cyclotrimethylene Trinitramine

Electronic Structure of Quantum Dots

Ab Initio Simulation on Mechanical and Electronic Properties of Nanostructures under Deformation

First-Principles Molecular-Dynamics Simulations of a Hydrous Silica Melt: Hydrogen Diffusion Mechanisms and Electronic Properties

Atomistic Simulations in Nanostructures Composed of Tens of Millions of Atoms: Importance of long-range Strain Effects in Quantum Dots

ONETEP: Linear-Scaling Density-Functional Theory with Plane-Waves

Fast Density-Functional-Theory Calculation With Q-Chem Program

Quantum Design of Complex Nanostructured Electronic Materials

The influence of nanometric size on various properties of nanocrystalline Ti0.95Co0.05O2 diluted magnetic semiconductors

Influence of oxygen vacancies on electronic and magnetic

electronic structure calculation

Interaction of DNA with Single-Walled Carbon Nanotubes: Implication to the Bio-Sensors

Linear scaling techniques for first-principle calculations of large nanowire devices