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Practical applications of soft-matter dynamics are of vital importance in material science, chemical engineering, biophysics and biotechnology, food processing, plastic industry, micro- and nano-system technology, and other technologies based on non-crystalline and non-glassy materials. Principles of Soft-Matter Dynamics. Basic Theories, Non-invasive Methods, Mesoscopic Aspects covers fundamental dynamic phenomena such as diffusion, relaxation, fluid dynamics, normal modes, order fluctuations, adsorption and wetting processes. It also elucidates the applications of the principles and of the methods referring to polymers, liquid crystals and other mesophases, membranes, amphiphilic systems, networks, and porous media including multiphase and multi-component materials, colloids, fine-particles, and emulsions. The book presents all formalisms, examines the basic concepts needed for applications of soft-matter science, and reviews non-invasive experimental techniques such as the multi-faceted realm of NMR methods, neutron and light quasi-elastic scattering, mechanical relaxation and dielectric broadband spectroscopy which are treated and compared on a common and consistent foundation. The standard concepts of dynamics in fluids, polymers, liquid crystals, colloids and adsorbates are comprehensively derived in a step-by-step manner. Principles and analogies common to diverse application fields are elucidated and theoretical and experimental aspects are supplemented by computational-physics considerations. Principles of Soft-Matter Dynamics. Basic Theories, Non-invasive Methods, Mesoscopic Aspects appeals to graduate and PhD students, post-docs, researchers, and industrial scientists alike.
Dynamics. --- Materials science. --- Physics. --- Soft condensed matter --- Chemical & Materials Engineering --- Physics --- Physical Sciences & Mathematics --- Engineering & Applied Sciences --- Atomic Physics --- Chemical Engineering --- Chemistry. --- Chemistry, Physical and theoretical. --- Chemical engineering. --- Condensed matter. --- Amorphous substances. --- Complex fluids. --- Surfaces (Physics). --- Interfaces (Physical sciences). --- Thin films. --- Industrial Chemistry/Chemical Engineering. --- Theoretical and Computational Chemistry. --- Soft and Granular Matter, Complex Fluids and Microfluidics. --- Condensed Matter Physics. --- Surface and Interface Science, Thin Films. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Surface chemistry --- Surfaces (Physics) --- Complex liquids --- Fluids, Complex --- Amorphous substances --- Liquids --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Matter --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Physical sciences --- Soft condensed matter.
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Interested in analysing complex systems ? Have you considered nuclear magnetic relaxation studies to derive sound conclusions ? Here’s how. Nuclear Magnetic Resonance (NMR) relaxation techniques form a family of powerful tools to study and characterize liquid, solid or semi-solid materials and systems. They provide access to details directly and in wide variable ranges. This book outlines the unparalleled potential of NMR relaxation experiments to elucidate molecular dynamics. The key concepts discussed are correlation functions and spectral densities of the thermal fluctuations of spin interactions. For users working in technology, chemical engineering, materials science, biomedicine, food science, geophysics and physical chemistry, the text explores the principles, theoretical background and descriptions of typical applications. As an essential part of relaxation data, the focus is on the statistical features of molecular dynamics. The aim is to assist the reader to acquire meaningful nuclear magnetic relaxation data sets and develop appropriate statistical models as a basis for their interpretation. This unique text is targeted to anyone performing or interested in NMR relaxation experiments from undergraduates to academics and those in industry.
Molecular dynamics. --- Nuclear magnetic resonance. --- Magnetic resonance. --- Relaxation (Nuclear physics) --- Relaxation magnétique nucléaire. --- Résonance magnétique nucléaire. --- Dynamique moléculaire. --- Résonance magnétique. --- Relaxation (physique nucléaire) --- Relaxation spin-spin.
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Nuclear magnetic resonance. --- Nmr tomography --- Tomography. --- Résonance magnétique nucléaire. --- Résonance magnétique nucléaire --- Tomographie. --- Methodology --- Industrial applications. --- Applications industrielles.
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Practical applications of soft-matter dynamics are of vital importance in material science, chemical engineering, biophysics and biotechnology, food processing, plastic industry, micro- and nano-system technology, and other technologies based on non-crystalline and non-glassy materials. Principles of Soft-Matter Dynamics. Basic Theories, Non-invasive Methods, Mesoscopic Aspects covers fundamental dynamic phenomena such as diffusion, relaxation, fluid dynamics, normal modes, order fluctuations, adsorption and wetting processes. It also elucidates the applications of the principles and of the methods referring to polymers, liquid crystals and other mesophases, membranes, amphiphilic systems, networks, and porous media including multiphase and multi-component materials, colloids, fine-particles, and emulsions. The book presents all formalisms, examines the basic concepts needed for applications of soft-matter science, and reviews non-invasive experimental techniques such as the multi-faceted realm of NMR methods, neutron and light quasi-elastic scattering, mechanical relaxation and dielectric broadband spectroscopy which are treated and compared on a common and consistent foundation. The standard concepts of dynamics in fluids, polymers, liquid crystals, colloids and adsorbates are comprehensively derived in a step-by-step manner. Principles and analogies common to diverse application fields are elucidated and theoretical and experimental aspects are supplemented by computational-physics considerations. Principles of Soft-Matter Dynamics. Basic Theories, Non-invasive Methods, Mesoscopic Aspects appeals to graduate and PhD students, post-docs, researchers, and industrial scientists alike.
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