Scanning Probe Microscopy von Sergei V. Kalinin | Electrical and Electromechanical Phenomena at the Nanoscale | ISBN 9780387286679

Scanning Probe Microscopy

Electrical and Electromechanical Phenomena at the Nanoscale

von Sergei V. Kalinin und Alexei Gruverman
Mitwirkende
Autor / AutorinSergei V. Kalinin
Autor / AutorinAlexei Gruverman
Buchcover Scanning Probe Microscopy | Sergei V. Kalinin | EAN 9780387286679 | ISBN 0-387-28667-5 | ISBN 978-0-387-28667-9

From the reviews:

„The stated goal of this book is ‘to provide a comprehensive reference on the nanoscale characterization of electrical and mechanical properties of functional materials by SPM techniques and to make readers aware of tremendous developments in the field in the last decade.’ … The images are particularly clear even to the non-specialist eyes. … The black and white and color figures are of good quality. The photographs are all excellent. … will be helpful to materials scientists in universities and research centers.“ (Fernande Grandjean and Gary J. Long, Physicalia, Vol. 30 (2), 2008)

Scanning Probe Microscopy

Electrical and Electromechanical Phenomena at the Nanoscale

von Sergei V. Kalinin und Alexei Gruverman
Mitwirkende
Autor / AutorinSergei V. Kalinin
Autor / AutorinAlexei Gruverman

Scanning Probe Microscopy brings up to date a constantly growing knowledge base of electrical and electromechanical characterization at the nanoscale. This comprehensive, two-volume set presents practical and theoretical issues of advanced scanning probe microscopy (SPM) techniques ranging from fundamental physical studies to device characterization, failure analysis, and nanofabrication. Volume 1 focuses on the technical aspects of SPM methods ranging from scanning tunneling potentiometry to electrochemical SPM, and addresses the fundamental physical phenomena underlying the SPM imaging mechanism. Volume 2 concentrates on the practical aspects of SPM characterization of a wide range of materials, including semiconductors, ferroelectrics, dielectrics, polymers, carbon nanotubes, and biomolecules, as well as on SPM-based approaches to nanofabrication and nanolithography.