本套书共2卷,原定价509.00美元,净重1740克,馆藏。【图书分类:分子物理学、原子物理学之分子结构】From artificial surfaces to living cells, Molecular Nano Dynamics, Vol. I and Vol. II explores more than 40 important methods for dynamic observation of the nanoscale. Edited by absolute science greats from Japan, this two-volume set covers all important aspects of this topic: nanoscale spectroscopy and characterization tools, nanostructure dynamics, single living cell dynamics, active surfaces, and single crystals. Destined to be the definitive reference work on nanoscale molecular dynamics and their observation for years to come, this is a must-have reference for chemists, physicists, physical chemists, theoretical chemists, and materials scientists.
(Volume 1) I. SPECTROSCOPIC METHODS FOR NANO INTERFACES Fluorescence and Raman Spectroscopy Coupled with Scanning Tunneling Microscopy Real-Time Measurement of Solid/Liquid Interfacial Electron Transfer Dynamics by Nonlinear Spectroscopy Time-Resolved Near-Field Spectroscopic Study on Photophysical Processes of Molecules and Quantum Dots at Interfaces Time-resolved Anisotropic Decays of Polymer Chains Studied by Near-Field Optical Microscopy Nonlinear Raman Spectroscopy of THz Vibrations at Liquid-Solid Interfaces II. NANOSTRUCTURE CHARACTERISTICS AND DYNAMICS Hierarchical Structures in Molecular Systems with Self-Organization Methods Light-Induced Hierarchical Morphology of Polymer Mixtures Confined in Mesoscopic Length Scales Molecular Photo-Recognition and Segregation at Solid Surface with Periodic Metal Nano-Architecture Formation of Nanostructures at the Interface of Polymer Films: Time-Resolved Fluorescence Microspectroscopy Clarification of Mechanisms of Cooperative Chemical Phenomena by Microspectroscopy in Bistable Systems Study on Ionic-Liquid/Nanocrystal Interfacial Reaction Based on Single Particle and Single Molecule Spectroscopy Construction of Nanostructures in Reaction Fields and Measurement of Reaction Dynamics at Solid-Liquid Interfaces by Use of Strong Magnetic Fields and Spin Chemistry Asymmetric Potential Generation on a Substrate and Reaction Analysis by SECM/ AFM/Optical Microscopy Control of Temporal Intermittence of Photoluminescence from Single Quantum Dots III. SINGLE BIOCELLS Light Scattering Imaging and Femtosecond Nonlinear Processing of Single Living Cells Super-resolution Infrared Microspectroscopy for Single Living Cells 3D Super-resolution Microspectroscopic Study on Environment-sensitive Photosynthetic Units Photothermal and Photoinonization Spectroscopy on Single Living Cells Fluorescence Lifetime Imaging Study on Single Living Cells in View of External and pH Effects Photon Force Measurement on Single Living Cells and Their Interactions Nonlinear Nano Vibrational Spectroscopy for Life Science Matrix Spectroscopy for Non-invasive Evaluation of Cell Differentiation Optical Trapping Study on Differentiation of Single ES Cells in Solution Spectroscopy and Reaction of Gold Nanorods in Living Cells and Organisms Laser-induced Injection and Plasmon Sensitization of Gold Nanoparticles in Chloroplasts Fluorescence Correlation Spectroscopy on Molecular Diffusion in Single Living Cells (Volume 2) IV. ACTIVE SURFACES Catalysts and Surfaces by Dynamic XAFS Surface Reactions by Dynamic NEXAFS Nuclear Wavepacket Dynamics in Ultrashort Pulse Induced Surface Photochemical Reactions Ultrafast Near-Field Spectroscopy on Spatiotemporal Coherence of Elementary Excitations in Nanostructures Real Time Observation of Surface Chemical Reaction by Nonlinear Spectroscopy Quantum Dynamics and Control of Surface Ultra-Fast Processes Dynamic Behavior of Active Ag species in NOx Reduction on Ag/Al2O3 Dynamic Behavior of Active Structures During Catalysis Structures for Photocatalysis V. SINGLE CRYSTALS Morphology Changes of Photochromic Single Crsytals Ultra-Fine Structural Control of Organic Crystals Using Solid-State Polymerization Reactions Temporal and Space Resolved Detection of Laser-Induced Crystallization Processes Crystal Growth by Photo-Induced Intermolecular Interaction Time-Resolved Structure Analysis of Photo-Induced Crystalline State Reaction with MSGC Detector Reaction Dynamics Study of Single Crystalline Photochromisim of Disulfone Complexes Measurements and Dynamics of Intercalation into Organic Layered Crystals Morphology Change and Structure Control of Organic Cocrystals
\"This two-volume set provides readers with a concise introduction to a broad and diverse research area. The discussions and references in this set will stimulate further advancements in the studies of chemical reaction dynamics in nanosystems of supramolecules, colloids, and ultrasmall materials.\" (JACS, 2010)
Hiroshi Fukumura studied the biocompatibility of polymers in the Government Industrial Research Institute of Osaka from 1983 to 1988. He became an Assistant Professor at the Kyoto Institute of Technology in 1988, then moved to the Department of Applied Physics of Osaka University in 1991, where he worked on the mechanism of laser ablation and laser molecular implantation. Since 1998, he is Professor in the Department of Chemistry at Tohoku University. His current interests include molecular physical chemistry employing ultra-fast spectroscopy and scanning tunneling microscopy.
Masahiro Irie received his B.S. and M.S. degrees from Kyoto University and his Ph.D. degree in radiation chemistry from Osaka University. He started his research on photochemistry at Hokkaido University in 1970 and went on to Osaka University. In 1988 he was appointed to Professor at Kyushu University, where he initiated the study of photochromic diarylethene derivatives. He is currently interested in developing single-crystalline photochromism and single-molecule photochemistry using diarylethene derivatives.
Yasuhiro Iwasawa pioneered the integration of modern surface science and organometallic chemistry into surface chemistry and catalysis on the atomic/molecular scale, and he has a leading position in the creation of the new research field of catalysis and surface chemistry at oxide surfaces by XAFS and SPM techniques. His honors include the Japan IBM Science Award (1990), Inoue Prize for Science (1996), Catalysis Society of Japan Award (1999), The Surface Science Society of Japan Award (2000), Medal with Purple Ribbon (2003), and the Chemical Society of Japan Award (2004).
Hiroshi Masuhara held a Professorship at the Kyoto Institute of Technology (1984-1991) before returning to Osaka University as Professor in the Department of Applied Physics. With his research, he opened a whole new field on laser nanospectroscopy, nanophotochemistry and laser nanoablation. In addition to his position in Osaka, he joined the Hamano Life Science Research Foundation in Kobe for research activities in bioscience and biotechnology. He has edited ten English and three Japanese books on topics ranging from photochemistry and spectroscopy to micro- and nanophotonics.
Kohei Uosaki was a Research Chemist at Mitsubishi Petrochemical Co. Ltd. from 1971 to 1978 and a Research Officer at the Inorganic Chemistry Laboratory of Oxford University between 1978 and 1980. He subsequently joined Hokkaido University as Assistant Professor in the Department of Chemistry, receiving promotions to Associate Professor in 1981 and Professor in 1990.
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