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190923s2020 ne a ob 001 0 eng d |
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|a9780444642264 (electronic bk.)
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|a0444642269 (electronic bk.)
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|a9780444642257 (print)
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|a0444642250
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|aOPELS|beng|epn|cOPELS|dOCLCF|dEBLCP|dUKMGB|dUKAHL|dYDXIT|dYDX|dN$T|dOCLCQ|dSFB|dOCLCQ|dSFB|dOCLCQ|dOCLCO
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0
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|aeng
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4
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|aQP531
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|a572.51|223
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|aNF|tLCC|p|dQP531|e|c
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|aPractical approaches to biological inorganic chemistry|h[electronic resource] /|cedited by Robert R. Crichton, Ricardo O. Louro.
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|a2nd ed.
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|aAmsterdam, Netherlands :|bElsevier,|c2020.
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|a1 online resource (ix, 494 p.) :|bill. (some col.)
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|aIncludes bibliographical references and index.
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|aFront Cover; Practical Approaches to Biological Inorganic Chemistry; Copyright Page; Contents; List of Contributors; 1 An overview of the role of metals in biology; Introduction; Essential metal ions and their functions; Toxic metals; Metals in diagnosis and therapeutics; References; Further reading; 2 Introduction to ligand field theory and computational chemistry; Introduction; Introduction to quantum chemistry; Approximations in quantum chemistry; Electronic structure of atoms; Hydrogen atom; Angular momentum; Electron spin; Many-electron atoms; Periodic system of elements; Pauli principle
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|aTwo electrons in two orbitalsElectronic terms; Symmetry; Ligand field theory; Some qualitative considerations; Symmetry in ligand field theory; Some quantitative considerations; Tanabe-Sugano diagrams; Introduction to computational chemistry; The wave function-based methods; The Hartree-Fock method; Post-Hartree-Fock methods; Density functional theory; Density functional approximations; Density functionals and spin states; Computational methods for excited states; Computational methods for biological systems containing transition metal; Concluding remarks; Acknowledgments; References
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|a3 Molecular magnetochemistryIntroduction; Origin of magnetism; Contributions to angular momentum in free atoms and ions; Term symbols for free atoms and ions with one electron outside a closed inner shell; Spin-orbit coupling; Term symbols for free atoms and ions with more than one electron outside a closed inner shell; Units and definitions; Magnetic moment and the Bohr magneton; Magnetic field and magnetization; Zeeman effect; Normal Zeeman effect; Anomalous Zeeman effect; Magnetic susceptibility, effective magnetic moment and magnetization saturation
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8
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|aCurie law for noninteracting paramagnetsBoltzmann treatment of magnetization; Langevin paramagnetism; Brillouin function; Van Vleck equation; Curie constant and spin-only effective magnetic moment; Temperature-independent paramagnetism and the second-order Zeeman effect; Contributions to magnetism in biologically relevant ions; Orbital splitting of transition metal ions in crystal field; Effect of crystal field on magnetic properties of 3d compounds; Dimeric sites: exchange mechanisms and J values; Curie-Weiss law; Superexchange; Spin Hamiltonian; Bleaney-Bowers equation; Diamagnetism
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|aExperimental methodsMagnetometry; Force methods; SQUID-super conducting quantum interference device; What is measured in the SQUID?; Evans NMR method; Magnetic circular dichroism; Conclusion; Problems; Answers; References; Further reading; 4 EPR spectroscopy; Why electron paramagnetic resonance spectroscopy?; What is electron paramagnetic resonance spectroscopy?; Anisotropy; A comparison of electron paramagnetic resonance versus NMR; Electron paramagnetic resonance spectrometer; What (bio)molecules give electron paramagnetic resonance?
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|aOnline resource, title from digital title page (viewed on July 2, 2020).
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|aBioinorganic chemistry.
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|aBioinorganic chemistry.|2fast|0(OCoLC)fst00832183
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4
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|aElectronic books.
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1
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|aCrichton, Robert R.
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1
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|aLouro, Ricardo O.
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|uhttps://www.sciencedirect.com/science/book/9780444642257
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