Zoubir, Arnaud.
Raman Imaging Techniques and Applications / [electronic resource] : edited by Arnaud Zoubir. - XIII, 383 p. 199 illus., 92 illus. in color. online resource. - Springer Series in Optical Sciences, 168 0342-4111 ; . - Springer Series in Optical Sciences, 168 .
Instrumentation: -- Theory and instrumentation -- Imaging modes -- Micro-Raman Applications: -- Raman imaging in Semiconductor Physics and its application in Microelectronics -- Raman optimization of the properties of nano-phased materials -- Raman Imaging of meso- and nano-strutured materials -- Application of Raman-based images in the Earth sciences -- Uses of Raman Mapping and Imaging in Pharmaceutical Forensics -- Raman Microscopy: A Versatile Approach to Bio-imaging -- Mapping chemical and structural composition of biological and pharmaceutical samples by Raman and Surface-enhanced Raman scattering (SERS) spectroscopy -- Morphology and Chemical Structure: Agricultural Applications -- Tip-Enhanced Raman Spectroscopy: -- From stress and dopant distribution mappings in solar cells to applications of the surface enhanced Raman effect -- Tip-enhanced Raman and photoluminescence of nanotubes -- CARS spectroscopy, implementation to far-field and near-filed microscopy and applications.
Raman imaging has long been used to probe the chemical nature of a sample, providing information on molecular orientation, symmetry and structure with sub-micron spatial resolution. Recent technical developments have pushed the limits of micro-Raman microscopy, enabling the acquisition of Raman spectra with unprecedented speed, and opening a pathway to fast chemical imaging for many applications from material science and semiconductors to pharmaceutical drug development and cell biology, and even art and forensic science. The promise of tip-enhanced raman spectroscopy (TERS) and near-field techniques is pushing the envelope even further by breaking the limit of diffraction and enabling nano-Raman microscopy.
9783642282522
10.1007/978-3-642-28252-2 doi
Physics.
Chemistry, Physical organic.
Microscopy.
Physics.
Optics, Optoelectronics, Plasmonics and Optical Devices.
Physical Chemistry.
Biological Microscopy.
QC350-467 TA1501-1820 QC392-449.5 TA1750-1750.22
621.36
Raman Imaging Techniques and Applications / [electronic resource] : edited by Arnaud Zoubir. - XIII, 383 p. 199 illus., 92 illus. in color. online resource. - Springer Series in Optical Sciences, 168 0342-4111 ; . - Springer Series in Optical Sciences, 168 .
Instrumentation: -- Theory and instrumentation -- Imaging modes -- Micro-Raman Applications: -- Raman imaging in Semiconductor Physics and its application in Microelectronics -- Raman optimization of the properties of nano-phased materials -- Raman Imaging of meso- and nano-strutured materials -- Application of Raman-based images in the Earth sciences -- Uses of Raman Mapping and Imaging in Pharmaceutical Forensics -- Raman Microscopy: A Versatile Approach to Bio-imaging -- Mapping chemical and structural composition of biological and pharmaceutical samples by Raman and Surface-enhanced Raman scattering (SERS) spectroscopy -- Morphology and Chemical Structure: Agricultural Applications -- Tip-Enhanced Raman Spectroscopy: -- From stress and dopant distribution mappings in solar cells to applications of the surface enhanced Raman effect -- Tip-enhanced Raman and photoluminescence of nanotubes -- CARS spectroscopy, implementation to far-field and near-filed microscopy and applications.
Raman imaging has long been used to probe the chemical nature of a sample, providing information on molecular orientation, symmetry and structure with sub-micron spatial resolution. Recent technical developments have pushed the limits of micro-Raman microscopy, enabling the acquisition of Raman spectra with unprecedented speed, and opening a pathway to fast chemical imaging for many applications from material science and semiconductors to pharmaceutical drug development and cell biology, and even art and forensic science. The promise of tip-enhanced raman spectroscopy (TERS) and near-field techniques is pushing the envelope even further by breaking the limit of diffraction and enabling nano-Raman microscopy.
9783642282522
10.1007/978-3-642-28252-2 doi
Physics.
Chemistry, Physical organic.
Microscopy.
Physics.
Optics, Optoelectronics, Plasmonics and Optical Devices.
Physical Chemistry.
Biological Microscopy.
QC350-467 TA1501-1820 QC392-449.5 TA1750-1750.22
621.36