Multiscale Simulation Methods for Nanomaterials
By Richard B. Ross, Sanat Mohanty
By Richard B. Ross, Sanat Mohanty
Publisher: Wiley-Interscience
Number Of Pages: 275
Publication Date: 2008-01-14
ISBN-10 / ASIN: 0470105283
ISBN-13 / EAN: 9780470105283
Binding: Hardcover
Molecular modelling, with greater accuracy than ever, allows for the fastest and most economical way of experimenting before creating a new productormaterial. While the scientific world has generally not solved the problem, methods have been developed which are proving feasible in solving specific problemsorpredicting specific phenomenaorproperties.
Led by editors who have expertise in this area, Multiscale Simulation Methods for Materials explores the impact of using an arsenal of molecular modelling tools for various simulations in industrial settings. It provides an overview of the available methods for providing atomistic simulation of a broad range of materials using our increased understanding of molecular scale, nanoscale, mesoscale, and macroscale phenomena. The strengths and weaknesses of the methods at hand are discussed within a context of real-world examples.
Unlike other texts, this book focuses on the most cutting-edge area within computational chemistry and molecular modelling: macromolecular simulations of a range of materials, and is aimed more toward the chemistry and chemical engineering communities than any previously published titles in this area.
Number Of Pages: 275
Publication Date: 2008-01-14
ISBN-10 / ASIN: 0470105283
ISBN-13 / EAN: 9780470105283
Binding: Hardcover
Molecular modelling, with greater accuracy than ever, allows for the fastest and most economical way of experimenting before creating a new productormaterial. While the scientific world has generally not solved the problem, methods have been developed which are proving feasible in solving specific problemsorpredicting specific phenomenaorproperties.
Led by editors who have expertise in this area, Multiscale Simulation Methods for Materials explores the impact of using an arsenal of molecular modelling tools for various simulations in industrial settings. It provides an overview of the available methods for providing atomistic simulation of a broad range of materials using our increased understanding of molecular scale, nanoscale, mesoscale, and macroscale phenomena. The strengths and weaknesses of the methods at hand are discussed within a context of real-world examples.
Unlike other texts, this book focuses on the most cutting-edge area within computational chemistry and molecular modelling: macromolecular simulations of a range of materials, and is aimed more toward the chemistry and chemical engineering communities than any previously published titles in this area.
