Seizo Morita - Böcker

This book presents the latest developments in noncontact atomic force microscopy. It deals with the following outstanding functions and applications that have been obtained with atomic resolution after the publication of volume 2: (1) Pauli repulsive force imaging of molecular structure, (2) Applications of force spectroscopy and force mapping with atomic resolution, (3) Applications of tuning forks, (4) Applications of atomic/molecular manipulation, (5) Applications of magnetic exchange force microscopy, (6) Applications of atomic and molecular imaging in liquids, (7) Applications of combined AFM/STM with atomic resolution, and (8) New technologies in dynamic force microscopy. These results and technologies are now expanding the capacity of the NC-AFM with imaging functions on an atomic scale toward making them characterization and manipulation tools of individual atoms/molecules and nanostructures, with outstanding capability at the level of molecular, atomic, and subatomic resolution. Since the publication of vol. 2 of the book Noncontact Atomic Force Microscopy in 2009 the noncontact atomic force microscope, which can image even insulators with atomic resolution, has achieved remarkable progress. The NC-AFM is now becoming crucial for nanoscience and nanotechnology.

This book presents the latest developments in noncontact atomic force microscopy. It deals with the following outstanding functions and applications that have been obtained with atomic resolution after the publication of volume 2: (1) Pauli repulsive force imaging of molecular structure, (2) Applications of force spectroscopy and force mapping with atomic resolution, (3) Applications of tuning forks, (4) Applications of atomic/molecular manipulation, (5) Applications of magnetic exchange force microscopy, (6) Applications of atomic and molecular imaging in liquids, (7) Applications of combined AFM/STM with atomic resolution, and (8) New technologies in dynamic force microscopy. These results and technologies are now expanding the capacity of the NC-AFM with imaging functions on an atomic scale toward making them characterization and manipulation tools of individual atoms/molecules and nanostructures, with outstanding capability at the level of molecular, atomic, and subatomic resolution. Since the publication of vol. 2 of the book Noncontact Atomic Force Microscopy in 2009 the noncontact atomic force microscope, which can image even insulators with atomic resolution, has achieved remarkable progress. The NC-AFM is now becoming crucial for nanoscience and nanotechnology.

Scanning tunneling microscopy - with its applications that span not only atomic resolution but also scanning tunneling spectroscopy, atom/molecule manipulation and nanostructuring, and inelastic electron tunneling spectroscopy - has achieved remarkable progress and become the key technology for surface science. Besides, atomic force microscopy is also rapidly developing and achieving remarkable progress and accomplishments such as true atomic resolution, atom/molecule identification, manipulation and nanostructuring. This book that predicts the future development for all of scanning probe microscopy (SPM). Such forecasts may help to determine the course ultimately to be taken and to accelerate research and development on nanotechnology and nanoscience, as well as all SPM-related fields in future.

Since the original publication of Noncontact Atomic Force Microscopy in 2002, the noncontact atomic force microscope (NC-AFM) has achieved remarkable progress. This second treatment deals with the following outstanding recent results obtained with atomic resolution since then: force spectroscopy and mapping with atomic resolution; tuning fork; atomic manipulation; magnetic exchange force microscopy; atomic and molecular imaging in liquids; and other new technologies. These results and technologies are now helping evolve NC-AFM toward practical tools for characterization and manipulation of individual atoms/molecules and nanostructures with atomic/subatomic resolution. Therefore, the book exemplifies how NC-AFM has become a crucial tool for the expanding fields of nanoscience and nanotechnology.

Scanning tunneling microscopy - with its applications that span not only atomic resolution but also scanning tunneling spectroscopy, atom/molecule manipulation and nanostructuring, and inelastic electron tunneling spectroscopy - has achieved remarkable progress and become the key technology for surface science. Besides, atomic force microscopy is also rapidly developing and achieving remarkable progress and accomplishments such as true atomic resolution, atom/molecule identification, manipulation and nanostructuring. This book that predicts the future development for all of scanning probe microscopy (SPM). Such forecasts may help to determine the course ultimately to be taken and to accelerate research and development on nanotechnology and nanoscience, as well as all SPM-related fields in future.