Marinello, Francesco.
Acoustic Scanning Probe Microscopy [electronic resource] / edited by Francesco Marinello, Daniele Passeri, Enrico Savio. - XXV, 494 p. 239 illus., 73 illus. in color. online resource. - NanoScience and Technology, 1434-4904 . - NanoScience and Technology, .
From the contents: Overview of acoustic techniques -- Contact dynamics modelling -- Cantilever dynamics: theoretical modeling -- Finite elements modelling -- AFAM calibration -- Enhanced sensitivity -- UAFM -- Holography calibration -- UFM -- Friction/lateral techniques -- Harmonix -- Scanning microdeformation microscopy (SMM) -- Tip wear -- Comparison with other techniques -- Applications polymer -- Thin films.
The combination of atomic force microscopy with ultrasonic methods allows the nearfield detection of acoustic signals. The nondestructive characterization and nanoscale quantitative mapping of surface adhesion and stiffness or friction is possible. The aim of this book is to provide a comprehensive review of different scanning probe acoustic techniques, including AFAM, UAFM, SNFUH, UFM, SMM and torsional tapping modes. Basic theoretical explanations are given to understand not only the probe dynamics but also the dynamics of tip surface contacts. Calibration and enhancement are discussed to better define the performance of the techniques, which are also compared with other classical techniques such as nanoindentation or surface acoustic wave. Different application fields are described, including biological surfaces, polymers and thin films.
9783642274947
10.1007/978-3-642-27494-7 doi
Physics.
Acoustics.
Engineering.
Nanotechnology.
Surfaces (Physics).
Physics.
Laser Technology, Photonics.
Nanotechnology and Microengineering.
Acoustics.
Nanotechnology.
Characterization and Evaluation of Materials.
Surfaces and Interfaces, Thin Films.
TA1671-1707 TA1501-1820
621.36
Acoustic Scanning Probe Microscopy [electronic resource] / edited by Francesco Marinello, Daniele Passeri, Enrico Savio. - XXV, 494 p. 239 illus., 73 illus. in color. online resource. - NanoScience and Technology, 1434-4904 . - NanoScience and Technology, .
From the contents: Overview of acoustic techniques -- Contact dynamics modelling -- Cantilever dynamics: theoretical modeling -- Finite elements modelling -- AFAM calibration -- Enhanced sensitivity -- UAFM -- Holography calibration -- UFM -- Friction/lateral techniques -- Harmonix -- Scanning microdeformation microscopy (SMM) -- Tip wear -- Comparison with other techniques -- Applications polymer -- Thin films.
The combination of atomic force microscopy with ultrasonic methods allows the nearfield detection of acoustic signals. The nondestructive characterization and nanoscale quantitative mapping of surface adhesion and stiffness or friction is possible. The aim of this book is to provide a comprehensive review of different scanning probe acoustic techniques, including AFAM, UAFM, SNFUH, UFM, SMM and torsional tapping modes. Basic theoretical explanations are given to understand not only the probe dynamics but also the dynamics of tip surface contacts. Calibration and enhancement are discussed to better define the performance of the techniques, which are also compared with other classical techniques such as nanoindentation or surface acoustic wave. Different application fields are described, including biological surfaces, polymers and thin films.
9783642274947
10.1007/978-3-642-27494-7 doi
Physics.
Acoustics.
Engineering.
Nanotechnology.
Surfaces (Physics).
Physics.
Laser Technology, Photonics.
Nanotechnology and Microengineering.
Acoustics.
Nanotechnology.
Characterization and Evaluation of Materials.
Surfaces and Interfaces, Thin Films.
TA1671-1707 TA1501-1820
621.36