World Scientific, 2011, 540 pages
Computational Studies of New Materials was published by World Scientific in 1999 and edited by Daniel Jelski and Thomas F George. Much has happened during the past decade. Advances have been made on the same materials discussed in the 1999 book, including fullerenes, polymers and nonlinear optical processes in materials, which are presented in this 2010 book. In addition, different materials and topics are comprehensively covered, including nanomedicine, hydrogen storage materials, ultrafast laser processes, magnetization and light-emitting diodes.
Laser-Matter Interactions: Nanostructures, Fabrication and Characterization
Nanoscale Materials in Strong Ultrashort Laser Fields
Exciting Infrared Normal Modes in C60 by an Ultrafast Laser
Self-Interaction-Free Time-Dependent Density Functional Theoretical Approaches for Probing Atomic and Molecular Multiphoton Processes in Intense Ultrashort Laser Fields
Nanomaterials in Nanomedicine
New Dynamic Modes for Selective Laser Cancer Nanotherapy
New Direct Inhibitors and Their Computed Effect on the Dynamics of Thrombin Formation in Blood Coagulation
Laser Ablation of Biological Tissue by Short and Ultrashort Pulses
Incorporating Protein Flexibility in Molecular Docking by Molecular Dynamics: Applications to Protein Kinase and Phosphatase Systems
Spin Valves in Conjugated Polymeric Light-Emitting Diodes
Optical Properties of Wurtzite ZnO-Based Quantum Well Structures with Piezoelectric and Spontaneous Polarizations
Tailoring Electronic and Optical Properties of TiO2: Nanostructuring, Doping and Molecular-Oxide
Interactions
Computational Studies of Tailored Negative-Index Metamaterials and Microdevices
Nanoscale Resolution in the Near and Far Field Intensity Profile of Optical Dipole Radiation
Laser-Induced Femtosecond Magnetism
Gas-Dispersed Materials as an Active Medium of Chemical Lasers
Transport Coefficients in 3He-4He Mixtures
Computational Discovery of New Hydrogen Storage Compounds
Computational Studies of New Materials was published by World Scientific in 1999 and edited by Daniel Jelski and Thomas F George. Much has happened during the past decade. Advances have been made on the same materials discussed in the 1999 book, including fullerenes, polymers and nonlinear optical processes in materials, which are presented in this 2010 book. In addition, different materials and topics are comprehensively covered, including nanomedicine, hydrogen storage materials, ultrafast laser processes, magnetization and light-emitting diodes.
Laser-Matter Interactions: Nanostructures, Fabrication and Characterization
Nanoscale Materials in Strong Ultrashort Laser Fields
Exciting Infrared Normal Modes in C60 by an Ultrafast Laser
Self-Interaction-Free Time-Dependent Density Functional Theoretical Approaches for Probing Atomic and Molecular Multiphoton Processes in Intense Ultrashort Laser Fields
Nanomaterials in Nanomedicine
New Dynamic Modes for Selective Laser Cancer Nanotherapy
New Direct Inhibitors and Their Computed Effect on the Dynamics of Thrombin Formation in Blood Coagulation
Laser Ablation of Biological Tissue by Short and Ultrashort Pulses
Incorporating Protein Flexibility in Molecular Docking by Molecular Dynamics: Applications to Protein Kinase and Phosphatase Systems
Spin Valves in Conjugated Polymeric Light-Emitting Diodes
Optical Properties of Wurtzite ZnO-Based Quantum Well Structures with Piezoelectric and Spontaneous Polarizations
Tailoring Electronic and Optical Properties of TiO2: Nanostructuring, Doping and Molecular-Oxide
Interactions
Computational Studies of Tailored Negative-Index Metamaterials and Microdevices
Nanoscale Resolution in the Near and Far Field Intensity Profile of Optical Dipole Radiation
Laser-Induced Femtosecond Magnetism
Gas-Dispersed Materials as an Active Medium of Chemical Lasers
Transport Coefficients in 3He-4He Mixtures
Computational Discovery of New Hydrogen Storage Compounds