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FUN Fungi & Lichenes --- Fungi --- physiology --- metal ions --- -Metal ions --- -Ions --- Fungal kingdom --- Fungus kingdom --- Funguses --- Mycobiota --- Mycota --- Cryptogams --- Mycology --- Physiology --- Metabolism --- -Physiology --- Metal ions --- Ions
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Spectrometric and optical chemical analysis --- fysicochemie --- Secondary ion mass spectrometry --- Spectrométrie de masse des ions secondaires --- Congresses --- Congrès --- Spectrométrie de masse des ions secondaires --- Congrès --- Spectrométrie de masse des ions secondaires. --- Spectrométrie de masse des ions secondaires.
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Fysicochemical separation methods --- Ion exchange --- Ions, Echange d' --- Ion exchange. --- Ion exchangers --- Wastewater treatment
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Human biochemistry --- Channels [Ion ] --- Chondriosomes --- Circuits d'ions --- Electron transport --- Elektronentransport --- Ion channels --- Ionenkanalen --- Ions [Circuits d' ] --- Kanalen [Ionen] --- Membranes des mitochondries --- Mitochondria --- Mitochondrial membranes --- Mitochondriale membranen --- Mitochondries --- Transport electronique
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Ions --- Surface chemistry --- Surfaces (Physics) --- Chimie des surfaces --- Surfaces (Physique) --- Scattering --- Surface chemistry. --- Scattering. --- Surfaces (Physics). --- Ions - Scattering --- SURFACE (CHEMISTRY AND PHYSICS) --- ION BEAMS --- SCATTERING --- COLLISIONS --- FILMS --- CHEMICAL AND PHYSICAL EFFECTS
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Focusing primarily on isolated paramagnetic species, Electron Paramagnetic Resonance is designed to provide senior undergraduate and graduate students as well as professionals with the essential understanding needed to use this technique and be active in various specialized fields of interest.Electron Paramagnetic Resonance enables those with no previous background in quantum mechanics to gain a fundamental grasp of EPR. It helps those with moderate training to acquire more sophisticated mathematical and quantum-mechanical skills and a knowledge of powerful theoretical and experimental techniques--tools that will allow them to interpret a wide range of EPR spectra.This important work also introduces many exciting new EPR developments in progress, including time-resolved spectroscopy, which involves the acquisition of EPR data for short-lived species. In addition, it highlights the increasing complexity of the experimental equipment currently used, including spectrometers that operate both in the classical continuous-wave mode and in pulsed mode. This book also discusses how computers can direct spectrometer control and data acquisition, analyze data to yield to underlying parameters, and produce accurate simulated spectra.Readers will acquire a heightened historical appreciation of the EPR technique, discovering how EPR studies have:confirmed the existence of triplet states, establishing that new adsorption bands observed in optical spectra following excitation by light of certain molecules arise from the unpairing of electron spinsidentified chlorophyll radicals as the primary donor in the photosynthesis process, as well as other key intermediates in this reactionclarified the structure and function of systems of biomedical interest, including oxygen carriers and various enzymesuncovered paramagnetic species in insulators and semiconductors and described their environmentfacilitated chemists' investigation of reaction mechanismsComplete with problem sets and
Experimental solid state physics --- Electromagnetism. Ferromagnetism --- Magnetic properties of solids --- Electron paramagnetic resonance spectroscopy. --- 543.422.27 --- 544.175 --- Electron paramagnetic resonance spectroscopy --- #WSCH:FY15 --- Electron spin resonance spectroscopy --- EPR spectroscopy --- ESR spectroscopy --- Spectrum analysis --- Using ultra-high frequency electromagnetic waves (microwaves). Electron spin resonance spectroscopy --- Electron spin resonance spectra --- 543.422.27 Using ultra-high frequency electromagnetic waves (microwaves). Electron spin resonance spectroscopy --- Electron paramagnetic resonance. --- EPR --- Paramagnetic systems --- Spectrum analysis. --- Electrons. --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Electron resonance --- Electron spin resonance --- EPR (Magnetic resonance) --- ESR (Magnetic resonance) --- Paramagnetic resonance, Electron --- Magnetic resonance --- Paramagnetism --- Constitution --- Qualitative --- Monograph --- Spectrometry
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