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Chemical shift. --- Chemistry, Organic. --- Diamagnetic anisotropy. --- NMR. --- Nuclear magnetic resonance spectroscopy. --- Spin-spin coupling. --- Time-dependent phenomena.
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Bioinorganic chemistry. --- Coordination cpds. --- Infrared spectra. --- Infrared spectroscopy. --- Organometallic chemistry. --- Quadrupole. --- Quantum mechanics. --- Saturation. --- Spin-spin coupling. --- Theory of normal vibrations.
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Chemical equilibria. --- Chemical shifts. --- Conformational effects. --- Fluor NMR. --- NMR. --- Nuclear magnetic resonance spectroscopy. --- Shielding constants. --- Spectrometers. --- Spectrum analysis. --- Spin-spin coupling.
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Chemical shifts. --- Chemistry, Physical and theoretical. --- ESR. --- Electron paramagnetic resonance. --- Molecular rate processes. --- NMR. --- Nuclear magnetic resonance. --- Spin relaxation. --- Spin-spin couplings.
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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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The most comprehensive guide to infrared and Raman spectra of inorganic and coordination compounds-now fully revised and updatedThis book has served as the definitive guide to infrared and Raman spectroscopy of inorganic and coordination compounds from the time of its first publication in 1963. The Fifth Edition consists of two self-contained volumes: Part A describes basic theories of normal vibrations and their applications to relatively simple inorganic compounds, while Part B extends them to larger and more complex systems-coordination compounds, organometallic compounds, and bioinorganic compounds.Part B shows how one can deduce structural and bonding information from vibrational spectra. For this purpose, the compounds have been classified into each structural type, their vibrational frequencies and band assignments listed, and typical infrared/Raman spectra illustrated. Special emphasis has been placed on metal-ligand vibrations that appear in the low-frequency region. This new edition* Incorporates new topics, including complexes of carbon dioxide and dihydrogen and metal complex-DNA interactions* Offers many references to the latest research in the field* Reviews all important new results obtained on the subject* Provides many infrared and Raman spectral charts of typical compounds* Features 156 illustrationsThis is the best reference book for researchers and graduate students in this field today.Also Available: Infrared and Raman Spectra of Inorganic and Coordination Compounds, 5th Edition, Part A: Theory and Applications in Inorganic Chemistry, 1997 0-471-16394-5
Infrared spectroscopy. --- Raman spectroscopy. --- Infrared spectra. --- Bioinorganic chemistry --- Coordination cpds --- Organometallic chemistry --- Quadrupole --- Quantum mechanics --- Saturation --- Spin-spin coupling --- Theory of normal vibrations --- 544.17 --- Infrared spectroscopy --- Raman spectroscopy --- Atomic spectra. Molecular spectra. --- Bioinorganic chemistry. --- Coordination cpds. --- Organometallic chemistry. --- Quadrupole. --- Quantum mechanics. --- Saturation. --- Spin-spin coupling. --- Theory of normal vibrations. --- CARS spectroscopy --- Coherent anti-Stokes Raman spectroscopy --- Spectroscopy, Raman --- Spectrum analysis --- Infra-red spectrometry --- Infrared spectrometry --- Spectrometry, Infrared --- Spectroscopy, Infrared --- Optical spectroscopy --- Chemistry of complexes --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Atomic spectra. Molecular spectra
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537.635 --- 541.67 --- 543.422.25 --- #WSCH:FYS3 --- #WSCH:MODS --- Magnetic resonances --- Relation of chemical structure to electrical and magnetic properties --- Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Chemistry, Physical and theoretical. --- Electron paramagnetic resonance. --- Nuclear magnetic resonance. --- Chemical shifts --- ESR --- Molecular rate processes --- NMR --- Spin relaxation --- Spin-spin couplings --- Chemical shifts. --- ESR. --- Molecular rate processes. --- NMR. --- Spin relaxation. --- Spin-spin couplings. --- 543.422.25 Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- 541.67 Relation of chemical structure to electrical and magnetic properties --- 537.635 Magnetic resonances
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fysicochemie --- Nuclear chemistry --- Organic spectroscopy --- Chemical shift --- Diamagnetic anisotropy --- NMR --- Spin-spin coupling --- Time-dependent phenomena --- Chemical shift. --- Diamagnetic anisotropy. --- NMR. --- Spin-spin coupling. --- Time-dependent phenomena. --- Chemistry, Organic --- Nuclear magnetic resonance spectroscopy --- #WSCH:LOSH --- #WSCH:MACT --- 543.422.25 --- 547 --- 547 Organic chemistry --- Organic chemistry --- 543.422.25 Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Chemistry --- Chemistry, Organic. --- Nuclear magnetic resonance spectroscopy.
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fysicochemie --- Organic spectroscopy --- Physical organic chemistry --- Nuclear magnetic resonance spectroscopy --- Carbon --- Chimie organique physique --- Spectroscopie de la résonance magnétique nucléaire --- Carbone --- Isotopes --- isotopes --- 543.422.25 --- 547 --- -Chemistry, Physical organic --- #WSCH:MACT --- #WSCH:MODS --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Group 14 elements --- Light elements --- Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Organic chemistry --- Nuclear magnetic resonance spectroscopy. --- Physical organic chemistry. --- Chemical shift --- Fourier --- NMR --- Spin-spin --- Isotopes. --- Chemical shift. --- Fourier. --- NMR. --- Spin-spin. --- 547 Organic chemistry --- 543.422.25 Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Spectroscopie de la résonance magnétique nucléaire --- Radiocarbon --- Functional groups. --- Hydrocarbons. --- Natural products. --- Nuclear magnetic resonance. --- Organic compounds. --- Radicals (Chemistry) --- Carbon - isotopes --- Coordination compounds --- Instrumentation --- Ions --- Polymers --- Relaxation
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Nuclear magnetic resonance spectroscopy --- Carbon --- Spectroscopie de la résonance magnétique nucléaire --- Carbone --- Isotopes --- Spectra --- Spectre --- 543.422.25 --- -544.176 --- #WSCH:MACT --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Group 14 elements --- Light elements --- Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- -Spectra --- Nuclear magnetic resonance spectra. Nuclear Overhauser effect spectra --- Nuclear magnetic resonance spectroscopy. --- C13-spin-spin coupling --- Functional groups --- Shielding --- Stereochemical and structural applications --- Spectra. --- C13-spin-spin coupling. --- Functional groups. --- Shielding. --- Stereochemical and structural applications. --- 543.422.25 Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Spectroscopie de la résonance magnétique nucléaire --- 544.176 --- Isotopes&delete& --- Carbon - Isotopes - Spectra
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