Consisting of ten chapters written by some of the world's leaders in the field, this book combines experimental, theoretical and numerical studies of current-driven phenomena in the nanoscale. The topics covered range from single-molecule, site-specific nanochemistry induced by a scanning tunneling microscope, through inelastic tunneling spectroscopy and current-induced heating, to current-triggered molecular machines. The various chapters focus on experimental and numerical method development, the description of specific systems, and new ideas and novel phenomena.

About the Author

Tamar Seideman is a professor of physics and chemistry at the Northwestern University. The Seideman group is engaged with theoretical and computational research at the broad interface between chemistry, physics and materials science.

Reviews

Tamar Seideman has been a pioneer in the area of quantum transport and current-driven dynamics for over a decade. Her imaginative concepts and fundamental theoretical developments have stimulated several beautiful laboratory experiments. This book is highly recommended for anyone interested in nanoelectronics.-Prof. Joern Manz, Free University Berlin, Germany

The editor of the volume has a distinguished research record in the field and has brought together experts from North America, Europe and Japan to produce an informative collection of experimental and theoretical studies of current driven phenomena in molecular nano-junctions. ... readers of this book will profit from the expertise of the contributors and thence will be stimulated to add further to this fascinating field.-K. Alan Shore, Bangor University, in Contemporary Physics, August 2011

Book Information
ISBN 9789814241502
Author Tamar Seideman
Format Hardback
Page Count 228
Imprint Pan Stanford Publishing Pte Ltd
Publisher Pan Stanford Publishing Pte Ltd
Weight(grams) 682g