The scanning probe microscopy ?eld has been rapidly expanding. It is a demanding task to collect a timely overview of this ?eld with an emphasis on technical dev- opments and industrial applications. It became evident while editing Vols. I-IV that a large number of technical and applicational aspects are present and rapidly - veloping worldwide. Considering the success of Vols. I-IV and the fact that further colleagues from leading laboratories were ready to contribute their latest achie- ments, we decided to expand the series with articles touching ?elds not covered in the previous volumes.…mehr
The scanning probe microscopy ?eld has been rapidly expanding. It is a demanding task to collect a timely overview of this ?eld with an emphasis on technical dev- opments and industrial applications. It became evident while editing Vols. I-IV that a large number of technical and applicational aspects are present and rapidly - veloping worldwide. Considering the success of Vols. I-IV and the fact that further colleagues from leading laboratories were ready to contribute their latest achie- ments, we decided to expand the series with articles touching ?elds not covered in the previous volumes. The response and support of our colleagues were excellent, making it possible to edit another three volumes of the series. In contrast to to- cal conference proceedings, the applied scanning probe methods intend to give an overview of recent developments as a compendium for both practical applications and recent basic research results, and novel technical developments with respect to instrumentation and probes. The present volumes cover three main areas: novel probes and techniques (Vol. V), charactarization (Vol. VI), and biomimetics and industrial applications (Vol. VII). Volume V includes an overview of probe and sensor technologies including integrated cantilever concepts, electrostatic microscanners, low-noise methods and improved dynamic force microscopy techniques, high-resonance dynamic force - croscopy and the torsional resonance method, modelling of tip cantilever systems, scanning probe methods, approaches for elasticity and adhesion measurements on the nanometer scale as well as optical applications of scanning probe techniques based on near?eld Raman spectroscopy and imaging.
Dr. Bharat Bhushan received an M.S. in mechanical engineering from the Massachusetts Institute of Technology in 1971, an M.S. in mechanics and a Ph.D. in mechanical engineering from the University of Colorado at Boulder in 1973 and 1976, respectively, an MBA from Rensselaer Polytechnic Institute at Troy, NY in 1980, Doctor Technicae from the University of Trondheim at Trondheim, Norway in 1990, a Doctor of Technical Sciences from the Warsaw University of Technology at Warsaw, Poland in 1996, and Doctor Honoris Causa from the Metal-Polymer Research Institute of National Academy of Sciences at Gomel, Belarus in 2000. He is a registered professional engineer (mechanical) and presently an Ohio Eminent Scholar and The Howard D. Winbigler Professor in the Department of Mechanical Engineering, Graduate Research Faculty Advisor in the Department of Materials Science and Engineering, and the Director of the Nanotribology Laboratory for Information Storage & MEMS/NEMS (NLIM) at the Ohio Sta
te University, Columbus, Ohio. He is an internationally recognized expert of tribology on the macro- to nanoscales, and is one of the most prolific authors in the field. He is considered by some a pioneer of the tribology and mechanics of magnetic storage devices and a leading researcher in the fields of nanotribology and nanomechanics using scanning probe microscopy and applications to micro/nanotechnology.
Inhaltsangabe
Scanning Tunneling Microscopy of Physisorbed Monolayers: From Self-Assembly to Molecular Devices.- Tunneling Electron Spectroscopy Towards Chemical Analysis of Single Molecules.- STM Studies on Molecular Assembly at Solid/Liquid Interfaces.- Single-Molecule Studies on Cells and Membranes Using the Atomic Force Microscope.- Atomic Force Microscopy of DNA Structure and Interactions.- Direct Detection of Ligand-Protein Interaction Using AFM.- Dynamic Force Microscopy for Molecular-Scale Investigations of Organic Materials in Various Environments.- Noncontact Atomic Force Microscopy.- Tip-Enhanced Spectroscopy for Nano Investigation of Molecular Vibrations.- Investigating Individual Carbon Nanotube/Polymer Interfaces with Scanning Probe Microscopy.
Scanning Tunneling Microscopy of Physisorbed Monolayers: From Self-Assembly to Molecular Devices.- Tunneling Electron Spectroscopy Towards Chemical Analysis of Single Molecules.- STM Studies on Molecular Assembly at Solid/Liquid Interfaces.- Single-Molecule Studies on Cells and Membranes Using the Atomic Force Microscope.- Atomic Force Microscopy of DNA Structure and Interactions.- Direct Detection of Ligand-Protein Interaction Using AFM.- Dynamic Force Microscopy for Molecular-Scale Investigations of Organic Materials in Various Environments.- Noncontact Atomic Force Microscopy.- Tip-Enhanced Spectroscopy for Nano Investigation of Molecular Vibrations.- Investigating Individual Carbon Nanotube/Polymer Interfaces with Scanning Probe Microscopy.
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