Molecular dynamics in restricted geometries

This book investigates the chemistry and physics of complex systems by focusing on the role of spatial restrictions on molecular movement. It covers a broad range of topics including motions of excitations, multilayers and porous glasses, defect diffusion in polymers, photoreactions, nuclear magnetic resonance, and orientational dynamics. Methods are critically evaluated as they are used, and the book concentrates on examples that revolve around the use of probes. It utilizes a classical approach as well as modern fractal ideas of spatial relations. The text will benefit biochemists, chemists, physicists, and graduate students of chemistry and physics.

• Relaxation and diffusion in restricted geometrics
• excitation energy transfer and photoinduced electron transfer phenomena in some confined systems
• electron excitation transport in micelles, polymers, and multilayers
• electron excitation transport on polymer chains
• polymer structure and downchain electronic energy transfer
• low dimensional reaction kinetics in membranes
• critical evaluation of the application of direct energy transfer in probing the morphology of porous solids
• cyclization as a reaction in restricted space
• local dynamics in amorphous polymers
• probing porous media
• orientation dynamics of supercooled liquids in restricted geometries
• effects of finite volumes on electronic energy transfer
• photochemical probes for the structure of zeolites and for dynamics of reaction of molecules absorbed on porous solids
• charge carrier reactions in colloidal semiconductor particles and on semiconducting oxide films.