Encyclopedia of Inorganic and Bioinorganic Chemistry

Encyclopedia of Inorganic and Bioinorganic Chemistry

Online ISBN: 9781119951438

DOI: 10.1002/9781119951438

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  1. Bioinorganic Chemistry
  2. Catalysis
  3. Computational Methods
  4. Energy Chemistry
  5. Environmental Chemistry
  6. General Principles
  7. Green Chemistry and Sustainability
  8. Inorganic and Coordination Chemistry
  9. Lanthanides and Actinides
  10. Main Group Elements
    1. Alkali Metals: Inorganic Chemistry
    2. Alkali Metals: Organometallic Chemistry
    3. Alkalides
    4. Alkaline Earth Catalysis
    5. Alkaline Earth Metals: Inorganic Chemistry
    6. Alkaline Earth Metals: Organometallic Chemistry
    7. Allotrope
    8. Alumina
    9. Aluminum: Inorganic Chemistry
    10. Aluminum: Organometallic Chemistry
    11. Amide (Amido) Complexes
    12. Antiaromatic Compound
    13. Antimony: Inorganic Chemistry
    14. Antimony: Organometallic Chemistry
    15. Arachno Cluster
    16. Arbuzov Rearrangement
    17. Arsenic: Inorganic Chemistry
    18. Arsenic: Organoarsenic Chemistry
    19. Arsine & As-Donor Ligands
    20. Beryllium & Magnesium: Organometallic Chemistry
    21. Beryllium: Inorganic Chemistry
    22. Binary Compounds
    23. Biomimetic Synthesis of Nanoparticles
    24. Biomineralization
    25. Bismuth: Inorganic Chemistry
    26. Bond Lengths in Inorganic Solids & Liquids
    27. Bonding Energetics of Organometallic Compounds
    28. Borates: Solid-State Chemistry
    29. Borazine
    30. Borides: Solid-State Chemistry
    31. Boron Hydrides and Nanostructured Boron Materials
    32. Boron–Nitrogen Compounds
    33. Boron: Inorganic Chemistry
    34. Boron: Metallacarbaboranes
    35. Boron: Metalloboranes
    36. Boron: Organoboranes
    37. Boron: Polyhedral Carboranes
    38. Borosilicate Glass
    39. Buckminsterfullerene
    40. Cadmium: Coordination Chemistry
    41. Cadmium: Inorganic Chemistry
    42. Cadmium: Organometallic Chemistry
    43. Calcium-Binding Proteins
    44. Calixarenes
    45. Carbides: Transition-Metal Solid-State Chemistry
    46. Carbon–Carbon & Carbon–Heteroatom Activation
    47. Carbon: Inorganic Chemistry
    48. Carbon: Nanotubes
    49. Carborane
    50. Catenation
    51. Cation–π Interactions
    52. Cation-Activated Enzymes
    53. Ceramic Material
    54. Ceramics
    55. Cesium: Global Ocean Distribution
    56. Cesium: Radionuclide
    57. Chalcogenides: Solid-State Chemistry
    58. Chalcogens
    59. Chalcophiles
    60. Chlorine, Bromine, Iodine, & Astatine: Inorganic Chemistry
    61. Chlorine: Radionuclides
    62. Closo Cluster
    63. Cluster
    64. Cluster Compounds: Inorganometallic Compounds Containing Transition Metal & Main Group Elements
    65. Collman's Reagent
    66. Compound Semiconductor
    67. Computational Methods: Heteropolyoxoanions
    68. Computational Methods: Transition Metal Clusters
    69. Computational Studies: Boranes
    70. Copper Enzymes in Denitrification
    71. Corands
    72. Crown Ethers
    73. Cryptands & Cryptates
    74. Deltahedron
    75. Dielectric Polarizabilities of Oxides & Fluorides
    76. Dioxygen & Related Ligands
    77. Dithiocarbamate
    78. Dithiolenes
    79. Donor Level
    80. Electronic Structure of Main-Group Compounds
    81. Electronic Structure of Metal—Metal Bonds
    82. Fluorides: Solid-State Chemistry
    83. Fluorine: Inorganic Chemistry
    84. Gallium and Indium Compounds in Homogeneous Catalysis
    85. Gallium: Inorganic Chemistry
    86. Gallium: Organometallic Chemistry
    87. Germanium: Inorganic Chemistry
    88. Germanium: Organometallic Chemistry
    89. Grignard Reagents
    90. Group 14 Multiple Bonding
    91. Halides: Solid-State Chemistry
    92. Hall–Herault Process
    93. Hydrazides
    94. Hydride Complexes of the Transition Metals
    95. Hydrides: Solid State Transition Metal Complexes
    96. Hydroboration
    97. Hydroboration Catalysis
    98. Hydrodesulfurization & Hydrodenitrogenation
    99. Hydrogen Bonding
    100. Hydrogen Bonding & Dihydrogen Bonding
    101. You have free access to this content
      Hydrogen Economy
    102. Hydrogen: Inorganic Chemistry
    103. Hydrogenation & Isomerization of Alkenes
    104. Hydronium Ion
    105. Hydrosilation
    106. Hydrosilation Catalysis
    107. Hypervalent Compounds
    108. Imide Complexes
    109. Indium: Inorganic Chemistry
    110. Indium: Organometallic Chemistry
    111. Indium: Radionuclides
    112. Inert Pair Effect
    113. Inorganic Nanomaterials Synthesis Using Ionic Liquids
    114. Inorganic Ring Systems
    115. Interrelationships between the Lightest Metals
    116. Iodine: Radionuclides
    117. Ion Channels and Ionophores
    118. Iron–Sulfur Models of Protein Active Sites
    119. Iron–Sulfur Proteins
    120. Iron: Heme Proteins & Dioxygen Transport & Storage
    121. Iron: Heme Proteins, Mono- & Dioxygenases
    122. Lead: Inorganic Chemistry
    123. Lead: Organometallic Chemistry
    124. Lead: Radionuclides
    125. Lime
    126. Low Coordinated Group 13 Chelates
    127. Low Oxidation State Chemistry
    128. Low-Oxidation-State Main Group Compounds
    129. Main Group Carbenes
    130. Main Group Elements
    131. Main Group: Multiple Bonding
    132. Main-Group Rings, Chains, and Polymer Compounds
    133. Mercury: Inorganic & Coordination Chemistry
    134. You have free access to this content
      Mercury: Organometallic Chemistry
    135. Metal Ion Toxicity
    136. Metal-Based Drugs
    137. Metal-Organic Frameworks: Aluminium-Based Frameworks
    138. Metallic Materials Deposition: Metal-Organic Precursors
    139. N-Heterocyclic Carbene
    140. Nido Cluster
    141. Nitrides: Transition Metal Solid-State Chemistry
    142. Nitrogen Monoxide (Nitric Oxide): Bioinorganic Chemistry
    143. Nitrogen: Inorganic Chemistry
    144. Noble Gas Compounds: Reliable Computational Methods
    145. Noble Gases: Inorganic Chemistry
    146. Nutritional Aspects of Metals and Trace Elements
    147. Occurrence and Production of Aluminum
    148. Occurrence and Production of Beryllium
    149. Occurrence of Magnesia Minerals and Production of Magnesium Chemicals and Metal
    150. Octet Rule
    151. Oligomer
    152. Oligomerization & Polymerization by Homogeneous Catalysis
    153. Organic Synthesis using Organometallic Reagents of Group 1, 2, 11, & 12 Metals
    154. Organoelement Chemistry
    155. Oxide Catalysts in Solid-State Chemistry
    156. Oxygen: Inorganic Chemistry
    157. Ozone & Ozone Layer
    158. Peroxo Complexes
    159. Phosphates: Solid-State Chemistry
    160. Phosphazenes
    161. Phosphides: Solid-State Chemistry
    162. Phosphorus–Nitrogen Compounds
    163. Phosphorus: Inorganic Chemistry
    164. Phosphorus: Organophosphorus Chemistry
    165. Phosphorus: Radionuclides
    166. Pnictide
    167. Podandocoronands
    168. Podands
    169. Polonium: Inorganic Chemistry
    170. Polonium: Organometallic Chemistry
    171. Polonium: Radionuclides
    172. Polyhydride
    173. Polyoxometalates
    174. Polyphosphazenes
    175. Polysiloxanes & Polysilanes
    176. Porous Inorganic Materials
    177. Potassium: Radonuclides
    178. Processing and Applications of Transparent Ceramics
    179. Pseudohalide
    180. Radium: Radionuclides
    181. Radon: Radionuclides
    182. Red Lead
    183. Resource Sustainability
    184. Scandium, Yttrium and the Lanthanides: Applications
    185. Scandium, Yttrium & the Lanthanides: Inorganic & Coordination Chemistry
    186. Scandium, Yttrium & The Lanthanides: Organometallic Chemistry
    187. Selenium Proteins Containing Selenocysteine
    188. Selenium: Inorganic Chemistry
    189. Selenium: Organoselenium Chemistry
    190. Selenium: Radionuclides
    191. Semicarbazide
    192. Semiconductor Interfaces
    193. You have free access to this content
      Semiconductor Nanocrystal Quantum Dots
    194. Semiconductors
    195. Semimetal
    196. Silica
    197. Silicon-Based Nanoparticles for Biosensing and Biomedical Applications
    198. Silicon: Inorganic Chemistry
    199. Silicon: Organosilicon Chemistry
    200. Skeletal Bonding Electrons
    201. Small Molecule Activation with Frustrated Lewis Pairs
    202. Sol–Gel Encapsulation of Metal and Semiconductor Nanocrystals
    203. Sol–Gel Synthesis of Solids
    204. Spherands
    205. Spirocyclic Compound
    206. Status as Strategic Metals
    207. Strontium: Radionuclides
    208. Subvalent Compounds
    209. Sulfur–Nitrogen Compounds
    210. Sulfur: Inorganic Chemistry
    211. Sulfur: Organic Polysulfanes
    212. Sulfur: Radionuclides
    213. Tellurium: Inorganic Chemistry
    214. Tellurium: Organic and Organometallic Compounds
    215. Thallium: Inorganic Chemistry
    216. Thallium: Organometallic Chemistry
    217. Thallium: Radionuclides
    218. The Interaction of Metal Compounds with Protein Targets: New Tools in Medicinal Chemistry and Chemical Biology
    219. Theoretical Aspects of Main Group Multiple Bonded Systems
    220. Thiocarbonyl
    221. Thiometalates
    222. Thionitrosyl
    223. Thiourea
    224. Tin: Inorganic Chemistry
    225. Tin: Organometallic Chemistry
    226. Topotactic
    227. Tris(pyrazolyl)borates
    228. Tritium: Radionuclide
    229. Wittig Reagent
    230. Xenon: Radionuclides
    231. Ylide
    232. Zeolites
    233. Zinc Enzymes
    234. Zinc: DNA-Binding Proteins
    235. Zinc: Inorganic & Coordination Chemistry
    236. Zinc: Organometallic Chemistry
    237. Zintl Border
    238. Zintl Compounds
  11. Medicinal Inorganic Chemistry
  12. Metalloproteins
  13. Nuclear Chemistry and Radionuclides
  14. Organometallic Chemistry
  15. Physical Methods
  16. Solid-State, Materials, and Nanomaterials
  17. Toxicology
  18. Transition Metals

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