Logo

Computational Nanoscience: Do It Yourself!

Small book cover: Computational Nanoscience: Do It Yourself!

Computational Nanoscience: Do It Yourself!
by

Publisher: NIC
ISBN/ASIN: 3000173501
Number of pages: 522

Description:
This volume focuses on the application of modern electronic structure calculations and dynamical simulation techniques covering aspects of solid state physics, surface and nanoscience, chemical reactions and dynamics, magnetism and electron transport as well as the structure and properties of large molecules and clusters.

Home page url

Download or read it online for free here:
Download link
(multiple PDF files)

Similar books

Book cover: Unbounding the Future: the Nanotechnology RevolutionUnbounding the Future: the Nanotechnology Revolution
by - William Morrow and Co.
An examination of the benefits and dangers of the new nanotechnology revolution. The book delivers scenarios of nanotechnology at work, some thrilling, some terrifying, all compelling. The authors give a deep sense of things that will happen.
(9326 views)
Book cover: Nanomaterials - A SojournNanomaterials - A Sojourn
by - National Centre for Catalysis Research
Nanomaterials today have pervaded every sphere of human activity and can be presented in various formats. Sector-wise application of nanomaterials yields a synthesis approach and probably easy to comprehend. This approach is adopted in the book.
(11660 views)
Book cover: Nanoelectronics and Materials DevelopmentNanoelectronics and Materials Development
by - InTech
The book presents some advanced research in the field of nanotechnology and its application in materials development. The focus is dragged toward those materials where electronic properties are manipulated for development of advanced materials.
(2023 views)
Book cover: Wave Propagation in Materials for Modern ApplicationsWave Propagation in Materials for Modern Applications
by - InTech
The advances in nanotechnology give rise new types of materials with unique properties. This book is devoted to the modern methods in electrodynamics and acoustics, developed to describe wave propagation in these modern materials and nanodevices.
(8678 views)