Encyclopedia of Inorganic Chemistry

Encyclopedia of Inorganic Chemistry

Online ISBN: 9780470862100

DOI: 10.1002/0470862106

Browse by Topic

  1. Bioinorganic Chemistry
    1. Bismuth: Inorganic Chemistry
    2. Broken Symmetry States of Iron—Sulfur Clusters
    3. Calcium-Binding Proteins
    4. Cation-Activated Enzymes
    5. Chromium: Biological Relevance
    6. Cobalt: B12 Enzymes & Coenzymes
    7. Combined Density Functional Theory (DFT) and Electrostatics Study of the Proton Pumping Mechanism in Cytochrome C Oxidase
    8. Computational Methods: Modeling of Reactivity in Zn-Containing Enzymes
    9. Computational Studies: B12 Cofactors and their Interaction with Enzyme Active Sites
    10. Computational Studies: Chemical Evolution of Metal Sites
    11. Computational Studies: Cisplatin
    12. Computational Studies: Proton/Water Coupling to Metals in Biological Reaction Mechanisms
    13. Copper Proteins with Dinuclear Active Sites
    14. Copper Proteins with Type 1 Sites
    15. Copper Proteins: Oxidases
    16. Copper: Hemocyanin/Tyrosinase Models
    17. Cytochrome Oxidase
    18. Electronic Structure Calculations: Dinitrogen Reduction in Nitrogenase and Synthetic Model Systems
    19. Fuel Cells: Enzymes and Microbes for Energy Production
    20. Hydrogenases: Theoretical Investigations Towards Bioinspired H2 Production and Activation
    21. Iron Porphyrin Chemistry
    22. Iron Proteins for Storage & Transport & Their Synthetic Analogs
    23. Iron Proteins with Dinuclear Active Sites
    24. Iron Proteins with Mononuclear Active Sites
    25. Iron Transport: Siderophores
    26. Iron–Sulfur Models of Protein Active Sites
    27. Iron–Sulfur Proteins
    28. Iron: Heme Proteins & Dioxygen Transport & Storage
    29. Iron: Heme Proteins & Electron Transport
    30. Iron: Heme Proteins, Mono- & Dioxygenases
    31. Iron: Heme Proteins, Peroxidases, Catalases & Catalase-Peroxidases
    32. Iron: Models of Proteins with Dinuclear Active Sites
    33. Long-Range Electron Transfer in Biology
    34. Manganese Proteins with Mono- & Dinuclear Sites
    35. Manganese: The Oxygen-Evolving Complex & Models
    36. Metal Ion Toxicity
    37. Metal-Based Drugs
    38. Metal-Based Imaging Agents
    39. Metal-Mediated Protein Modification
    40. Metal-Related Diseases of Genetic Origin
    41. Metallocenter Biosynthesis & Assembly
    42. Metallochaperones & Metal Ion Homeostasis
    43. Metalloprotein Design & Engineering
    44. Metalloregulation
    45. Metallothioneins
    46. Modeling Metalloenzymes with Density Functional and Mixed Quantum Mechanical/Molecular Mechanical (QM/MM) Calculations: Progress and Challenges
    47. Molecular Mechanics in Bioinorganic Chemistry
    48. Molybdenum: MPT-Containing Enzymes
    49. Multi-Heme Cytochromes & Enzymes
    50. Nature of the Catecholate—Fe(III) Bond: High Affinity Binding and Substrate Activation in Bioinorganic Chemistry
    51. Nickel Enzymes & Cofactors
    52. Nickel: Models of Protein Active Sites
    53. Nitrogen Monoxide (Nitric Oxide): Bioinorganic Chemistry
    54. Nitrogenase Catalysis & Assembly
    55. Nitrogenase: Metal Cluster Models
    56. Nucleic Acid–Metal Ion Interactions
    57. Nutritional Aspects of Metals & Trace Elements
    58. Oxidation Catalysis by Transition Metal Complexes
    59. Peptide–Metal Interactions
    60. Photosynthesis
    61. Platinum-Based Anticancer Drugs
    62. Quantum Mechanical/Molecular Mechanical (QM/MM) Methods and Applictions in Bioinorganic Chemistry
    63. Reaction Coordinate of Pyranopterin Molybdenum Enzymes
    64. Selenium Proteins Containing Selenocysteine
    65. Spectroscopic Properties of Protein-Bound Cofactors: Calculation by Combined Quantum Mechanical/Molecular Mechanical (QM/MM) Approaches
    66. Spin Contamination in Inorganic Chemistry Calculations
    67. Tungsten Proteins
    68. Vanadium in Biology
    69. Water Oxidation by the Manganese Cluster in Photosynthesis
    70. Zinc Enzymes
    71. Zinc: DNA-Binding Proteins
  2. Catalysis
  3. Computational Methods
  4. Energy Chemistry
  5. General Principles
  6. Inorganic and Coordination Chemistry
  7. Lanthanides and Actinides
  8. Main Group Elements
  9. Medicinal Inorganic Chemistry
  10. Nuclear Chemistry and Radionuclides
  11. Organometallic Chemistry
  12. Physical Methods
  13. Solid State, Materials and Nanomaterials
  14. Transition Metals

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