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
  11. Medicinal Inorganic Chemistry
  12. Metalloproteins
  13. Nuclear Chemistry and Radionuclides
  14. Organometallic Chemistry
  15. Physical Methods
  16. Solid-State, Materials, and Nanomaterials
    1. Acceptor Level
    2. Alloys
    3. Alumina
    4. Anderson Localization
    5. Anisotropic 3D Colloidal Quantum Nanostructures
    6. Antiferromagnetism
    7. Antistructure
    8. Asymmetric Unit
    9. Auger Spectroscopy
    10. Band Gap
    11. Band Theory
    12. BCS Theory
    13. Biologically Templated Nanostructure Assemblies
    14. Biomedical Applications of Magnetic Nanoparticles
    15. Biomimetic Chemistry of Hybrid Materials
    16. Biomineralization: Peptide-Mediated Synthesis of Materials
    17. Biomineralization: Self-Assembly Processes
    18. Bismuth: Inorganic Chemistry
    19. Bismuth: Organometallic Chemistry
    20. Borates: Solid-State Chemistry
    21. Borides: Solid-State Chemistry
    22. Borosilicate Glass
    23. Brillouin Zone
    24. Buckminsterfullerene
    25. Carbides: Transition-Metal Solid-State Chemistry
    26. Carbon Nanotubes and Nanocomposites for Electrical and Thermal Applications
    27. Carbon Nanotubes, Multi-Walled
    28. Carbon Nanotubes: Fluorinated Derivatives
    29. Carbon–Carbon & Carbon–Heteroatom Activation
    30. Ceramic Material
    31. Ceramics
    32. Chalcogenides: Solid-State Chemistry
    33. Charge Carrier
    34. Charge Density Wave
    35. Chemical Aspects of Itinerant Magnetism
    36. Chemical Vapor Deposition
    37. Chevrel Phases
    38. Chimie Douce
    39. Clay Minerals
    40. Close Packing
    41. Color
    42. Compound Semiconductor
    43. Conduction Band
    44. Conduction Band Edge
    45. Cooper Pair
    46. Crystal Orbitals
    47. Crystal Structures
    48. Crystallographic Radius
    49. Crystallographic Shear
    50. Defects in Solids
    51. Density of States
    52. Derivative Structure
    53. Dielectric Polarizabilities of Oxides & Fluorides
    54. Differential Scanning Calorimetry
    55. Diffraction Methods in Inorganic Chemistry
    56. Direct Band Gap
    57. Donor Level
    58. Electrides
    59. Electron Microscopy
    60. Electronic Structure of Solids
    61. Endohedral Fullerenes
    62. Energy Bands
    63. F-Center
    64. Faujasite
    65. Fermi Level
    66. Fermi Surface
    67. Ferromagnetic Insulator
    68. First Row Transition Metal Phosphides
    69. Fluorides: Solid-State Chemistry
    70. Frenkel Defects
    71. Fuel Cells: Intermediate Temperature Solid Oxides
    72. Fullerenes: Metal Complexes
    73. Fullerenes: Nanoscale-Ordered Materials
    74. Functional Supramolecular Hybrid Materials
    75. Gold Nanoparticles as Chemical Catalysts
    76. Gold Nanoparticles: Monolayer-Protected Scaffolds and Building Blocks
    77. Grain Boundary
    78. Halides: Solid-State Chemistry
    79. Hemozoin: Crystal Engineering Survivability
    80. Heterogeneous Catalysis by Metals
    81. High-Pressure Synthesis of Solids
    82. High-Temperature Limit
    83. High-Temperature Superconductivity
    84. Holes
    85. Hydrides: Solid State Transition Metal Complexes
    86. Incommensurate Structure
    87. Indirect Band Gap
    88. Inorganic Nanobelt Materials
    89. Inorganic Nanocrystals: Patterning and Assembling
    90. Inorganic Nanomaterials Synthesis Using Alkalide Reduction
    91. Inorganic Nanomaterials Synthesis Using Ionic Liquids
    92. Inorganic Nanomaterials Synthesis Using Liquid Crystals
    93. Inorganic Nanotubes
    94. Inorganic Semiconductor Nanomaterials for High-Performance Flexible Electronics
    95. Inorganic Spintronic Materials
    96. Insulator
    97. Intercalation Chemistry
    98. Intergrowth Structures
    99. Intermetallics
    100. Ionic Conductors
    101. Kapustinskii Equation
    102. Lanthanide Nanoparticles for Medical Imaging
    103. Lattice Energy
    104. Liquid Crystal
    105. Liquid-Phase Synthesis of Inorganic Nanoparticles
    106. Lithium–Ion Batteries: Li–6 MAS NMR Studies on Materials
    107. Lithophiles
    108. Magnetic Oxides
    109. Magnetism of Extended Arrays in Inorganic Solids
    110. Mass Defect
    111. Metal Nanoparticles, Synthesis of
    112. Metal Nanoparticles: Electronic Properties, Bioresponse, and Synthesis
    113. Metal Organic Framework (MOF)
    114. Metal Oxide Nanoparticles
    115. Metal–Organic Frameworks: Adsorption of Hydrocarbons and Alcohols
    116. Metal–Organic Frameworks: Frameworks Containing Open Sites
    117. Metal–Organic Frameworks: Functional Magnetic Materials with Formate
    118. Metal–Organic Frameworks: Gas Storage
    119. Metal–Organic Frameworks: Host Photoreactive Properties
    120. Metal–Organic Frameworks: Postsynthetic Modification
    121. Metal–Organic Frameworks: Semiconducting Frameworks
    122. Metal–Insulator Transitions
    123. Metal-Organic Frameworks: Coordination Polymer Nanoparticles and Macrostructures
    124. Metal-Organic Frameworks: Edible Frameworks
    125. Metal-Organic Frameworks: Aluminium-Based Frameworks
    126. Metal-Organic Frameworks: Application to Analytical Chemistry
    127. Metal-Organic Frameworks: Derived from Single Molecule Magnets
    128. Metal-Organic Frameworks: Electrochemical Properties
    129. Metal-Organic Frameworks: Fluorinated Frameworks
    130. Metal-Organic Frameworks: Frameworks in Mixed-Matrix Membranes
    131. Metal-Organic Frameworks: Harmful Gas Removal
    132. Metal-Organic Frameworks: Interpenetration and Entanglement
    133. Metal-Organic Frameworks: Materials Patterning
    134. Metal-Organic Frameworks: Mechanochemical Synthesis Strategies
    135. Metal-Organic Frameworks: Meso-Porous Frameworks
    136. Metal-Organic Frameworks: Metal-Uptake
    137. Metal-Organic Frameworks: Nanoscale Frameworks
    138. Metal-Organic Frameworks: NMR Studies of Quadrupolar Nuclei
    139. Metal-Organic Frameworks: Photoreactive Frameworks
    140. Metal-Organic Frameworks: Polyrotaxane Frameworks
    141. Metal–Organic Frameworks: Porphyrinic Frameworks
    142. Metal-Organic Frameworks: Single-Crystal-to-Single-Crystal Transformations
    143. Metallic Materials Deposition: Metal-Organic Precursors
    144. Mineralogy
    145. Mineralomimetic
    146. Moh's Hardness
    147. Molecular and Supramolecular Arrays of the [Re63-Se)8]2+ Core-Containing Clusters
    148. Monodisperse Magnetic Nanoparticles: Chemical Synthesis and Surface Modification
    149. Mott–Hubbard Transition
    150. Multicolor Quantum Dots in Molecular Profiling of Cancer Cells and Tissues
    151. Nano-Microporous Materials: Hydrothermal Synthesis of Zeolites
    152. Nano/Microporous Materials: Crystalline Metal-Chalcogenide Superlattices
    153. Nano/Microporous Materials: Hydrogen-Storage Materials
    154. Nano/Microporous Materials: Mesoporous and Surface-Functionalized Mesoporous Carbon
    155. Nano/Microporous Materials: Metal-Ion Sorption Materials
    156. Nano/Microporous Materials: Nanostructured Layered Double Hydroxides
    157. Nano/Microporous Materials: Transition Metal Cyanides
    158. Nanocomposite Materials: Polyhedral Silsesquioxanes
    159. Nanocomposite Materials: Semiconductors in Zeolites
    160. Nanocrystals
    161. Nanoparticle
    162. Nanoporous Metal Phosphonates
    163. Nanostructured Catalysts: Controlling Single-Site Composition
    164. Nitrides: Transition Metal Solid-State Chemistry
    165. Noncrystalline Solids
    166. Nonlinear Optical Materials
    167. Nonstoichiometric Compounds
    168. One-Dimensional Metal
    169. Order–Disorder Transition
    170. Organic Light-Emitting Diode
    171. Organometallic Chemical Vapor Deposition
    172. Oxide Catalysts in Solid-State Chemistry
    173. Oxides: Solid-State Chemistry
    174. Pearson Symbols
    175. Peierls Distortion
    176. Periodic Mesoporous Organosilicas
    177. Perovskite Materials: Solar Cell and Optoelectronic Applications
    178. Phase Diagram
    179. Phase Rule
    180. Phosphates: Solid-State Chemistry
    181. Phosphides: Solid-State Chemistry
    182. Photoconductivity
    183. Polaron
    184. Polyphosphazenes
    185. Polysiloxanes & Polysilanes
    186. Porous Inorganic Materials
    187. Quantum Dots
    188. Quantum-Size Effect
    189. Quasicrystals
    190. Recent Advances in Single-Atom Catalysis
    191. Role of Mixed Metal Oxides in Heterogeneous Catalysis
    192. Schottky Defects
    193. Self-Assembled Inorganic Architectures
    194. Semiconductor Interfaces
    195. You have free access to this content
      Semiconductor Nanocrystal Quantum Dots
    196. Semiconductor Nanocrystals: Doped Compositions
    197. Semiconductor Nanowires
    198. Semiconductor/Ceramic Nanocomposites: Synthesis, Characterization, and Properties
    199. Semiconductors
    200. Silica
    201. Silicon-Based Nanoparticles for Biosensing and Biomedical Applications
    202. Single-Walled Carbon Nanotubes: Functionalization by Intercalation
    203. Smelting
    204. Sol–Gel Encapsulation of Metal and Semiconductor Nanocrystals
    205. Sol–Gel Synthesis of Solids
    206. Solid Solution
    207. Solids: Characterization by Powder Diffraction
    208. Solids: Computer Modeling
    209. Solids: Defects
    210. Spinels
    211. Structure & Property Maps for Inorganic Solids
    212. Superconductivity
    213. Superconductivity in Solids
    214. Superhard Materials
    215. Supported Organotransition Metal Compounds
    216. Supramolecular Materials: Assemblies Based on Square-Complexation
    217. Supramolecular Materials: Metal–Quinonoid Complexes
    218. Surface States
    219. Surfaces
    220. Thermite Reaction
    221. Thermoelectric Materials
    222. Thin Film Synthesis of Solids
    223. Titanium Dioxide Nanomaterials
    224. Tribology
    225. Vacant Site
    226. Valence Band
    227. Valence Band Edge
    228. Vibronic Coupling
    229. X-ray Absorption Spectroscopy
    230. X-ray Crystallography
    231. X-ray Diffraction
    232. XANES
    233. Zeolites
    234. Zintl Compounds
    235. ZSM
    236. Acceptor Level
    237. Alloys
    238. Alumina
    239. Anderson Localization
    240. Anisotropic 3D Colloidal Quantum Nanostructures
    241. Antiferromagnetism
    242. Antistructure
    243. Asymmetric Unit
    244. Auger Spectroscopy
    245. Band Gap
    246. Band Theory
    247. BCS Theory
    248. Biologically Templated Nanostructure Assemblies
    249. Biomedical Applications of Magnetic Nanoparticles
    250. Biomimetic Chemistry of Hybrid Materials
    251. Biomineralization: Peptide-Mediated Synthesis of Materials
    252. Biomineralization: Self-Assembly Processes
    253. Bismuth: Inorganic Chemistry
    254. Bismuth: Organometallic Chemistry
    255. Borates: Solid-State Chemistry
    256. Borides: Solid-State Chemistry
    257. Borosilicate Glass
    258. Brillouin Zone
    259. Buckminsterfullerene
    260. Carbides: Transition-Metal Solid-State Chemistry
    261. Carbon Nanotubes and Nanocomposites for Electrical and Thermal Applications
    262. Carbon Nanotubes, Multi-Walled
    263. Carbon Nanotubes: Fluorinated Derivatives
    264. Carbon–Carbon & Carbon–Heteroatom Activation
    265. Ceramic Material
    266. Ceramics
    267. Chalcogenides: Solid-State Chemistry
    268. Charge Carrier
    269. Charge Density Wave
    270. Chemical Aspects of Itinerant Magnetism
    271. Chemical Vapor Deposition
    272. Chevrel Phases
    273. Chimie Douce
    274. Clay Minerals
    275. Close Packing
    276. Color
    277. Compound Semiconductor
    278. Conduction Band
    279. Conduction Band Edge
    280. Cooper Pair
    281. Crystal Orbitals
    282. Crystal Structures
    283. Crystallographic Radius
    284. Crystallographic Shear
    285. Defects in Solids
    286. Density of States
    287. Derivative Structure
    288. Dielectric Polarizabilities of Oxides & Fluorides
    289. Differential Scanning Calorimetry
    290. Diffraction Methods in Inorganic Chemistry
    291. Direct Band Gap
    292. Donor Level
    293. Electrides
    294. Electron Microscopy
    295. Electronic Structure of Solids
    296. Endohedral Fullerenes
    297. Energy Bands
    298. F-Center
    299. Faujasite
    300. Fermi Level
    301. Fermi Surface
    302. Ferromagnetic Insulator
    303. First Row Transition Metal Phosphides
    304. Fluorides: Solid-State Chemistry
    305. Frenkel Defects
    306. Fuel Cells: Intermediate Temperature Solid Oxides
    307. Fullerenes: Metal Complexes
    308. Fullerenes: Nanoscale-Ordered Materials
    309. Functional Supramolecular Hybrid Materials
    310. Gold Nanoparticles as Chemical Catalysts
    311. Gold Nanoparticles: Monolayer-Protected Scaffolds and Building Blocks
    312. Grain Boundary
    313. Halides: Solid-State Chemistry
    314. Hemozoin: Crystal Engineering Survivability
    315. Heterogeneous Catalysis by Metals
    316. High-Pressure Synthesis of Solids
    317. High-Temperature Limit
    318. High-Temperature Superconductivity
    319. Holes
    320. Hydrides: Solid State Transition Metal Complexes
    321. Incommensurate Structure
    322. Indirect Band Gap
    323. Inorganic Nanobelt Materials
    324. Inorganic Nanocrystals: Patterning and Assembling
    325. Inorganic Nanomaterials Synthesis Using Alkalide Reduction
    326. Inorganic Nanomaterials Synthesis Using Ionic Liquids
    327. Inorganic Nanomaterials Synthesis Using Liquid Crystals
    328. Inorganic Nanotubes
    329. Inorganic Semiconductor Nanomaterials for High-Performance Flexible Electronics
    330. Inorganic Spintronic Materials
    331. Insulator
    332. Intercalation Chemistry
    333. Intergrowth Structures
    334. Intermetallics
    335. Ionic Conductors
    336. Kapustinskii Equation
    337. Lanthanide Nanoparticles for Medical Imaging
    338. Lattice Energy
    339. Liquid Crystal
    340. Liquid-Phase Synthesis of Inorganic Nanoparticles
    341. Lithium–Ion Batteries: Li–6 MAS NMR Studies on Materials
    342. Lithophiles
    343. Magnetic Oxides
    344. Magnetism of Extended Arrays in Inorganic Solids
    345. Mass Defect
    346. Metal Nanoparticles, Synthesis of
    347. Metal Nanoparticles: Electronic Properties, Bioresponse, and Synthesis
    348. Metal Organic Framework (MOF)
    349. Metal Oxide Nanoparticles
    350. Metal–Organic Frameworks: Adsorption of Hydrocarbons and Alcohols
    351. Metal–Organic Frameworks: Frameworks Containing Open Sites
    352. Metal–Organic Frameworks: Functional Magnetic Materials with Formate
    353. Metal–Organic Frameworks: Gas Storage
    354. Metal–Organic Frameworks: Host Photoreactive Properties
    355. Metal–Organic Frameworks: Postsynthetic Modification
    356. Metal–Organic Frameworks: Semiconducting Frameworks
    357. Metal–Insulator Transitions
    358. Metal-Organic Frameworks: Coordination Polymer Nanoparticles and Macrostructures
    359. Metal-Organic Frameworks: Edible Frameworks
    360. Metal-Organic Frameworks: Aluminium-Based Frameworks
    361. Metal-Organic Frameworks: Application to Analytical Chemistry
    362. Metal-Organic Frameworks: Derived from Single Molecule Magnets
    363. Metal-Organic Frameworks: Electrochemical Properties
    364. Metal-Organic Frameworks: Fluorinated Frameworks
    365. Metal-Organic Frameworks: Frameworks in Mixed-Matrix Membranes
    366. Metal-Organic Frameworks: Harmful Gas Removal
    367. Metal-Organic Frameworks: Interpenetration and Entanglement
    368. Metal-Organic Frameworks: Materials Patterning
    369. Metal-Organic Frameworks: Mechanochemical Synthesis Strategies
    370. Metal-Organic Frameworks: Meso-Porous Frameworks
    371. Metal-Organic Frameworks: Metal-Uptake
    372. Metal-Organic Frameworks: Nanoscale Frameworks
    373. Metal-Organic Frameworks: NMR Studies of Quadrupolar Nuclei
    374. Metal-Organic Frameworks: Photoreactive Frameworks
    375. Metal-Organic Frameworks: Polyrotaxane Frameworks
    376. Metal–Organic Frameworks: Porphyrinic Frameworks
    377. Metal-Organic Frameworks: Single-Crystal-to-Single-Crystal Transformations
    378. Metallic Materials Deposition: Metal-Organic Precursors
    379. Mineralogy
    380. Mineralomimetic
    381. Moh's Hardness
    382. Molecular and Supramolecular Arrays of the [Re63-Se)8]2+ Core-Containing Clusters
    383. Monodisperse Magnetic Nanoparticles: Chemical Synthesis and Surface Modification
    384. Mott–Hubbard Transition
    385. Multicolor Quantum Dots in Molecular Profiling of Cancer Cells and Tissues
    386. Nano-Microporous Materials: Hydrothermal Synthesis of Zeolites
    387. Nano/Microporous Materials: Crystalline Metal-Chalcogenide Superlattices
    388. Nano/Microporous Materials: Hydrogen-Storage Materials
    389. Nano/Microporous Materials: Mesoporous and Surface-Functionalized Mesoporous Carbon
    390. Nano/Microporous Materials: Metal-Ion Sorption Materials
    391. Nano/Microporous Materials: Nanostructured Layered Double Hydroxides
    392. Nano/Microporous Materials: Transition Metal Cyanides
    393. Nanocomposite Materials: Polyhedral Silsesquioxanes
    394. Nanocomposite Materials: Semiconductors in Zeolites
    395. Nanocrystals
    396. Nanoparticle
    397. Nanoporous Metal Phosphonates
    398. Nanostructured Catalysts: Controlling Single-Site Composition
    399. Nitrides: Transition Metal Solid-State Chemistry
    400. Noncrystalline Solids
    401. Nonlinear Optical Materials
    402. Nonstoichiometric Compounds
    403. One-Dimensional Metal
    404. Order–Disorder Transition
    405. Organic Light-Emitting Diode
    406. Organometallic Chemical Vapor Deposition
    407. Oxide Catalysts in Solid-State Chemistry
    408. Oxides: Solid-State Chemistry
    409. Pearson Symbols
    410. Peierls Distortion
    411. Periodic Mesoporous Organosilicas
    412. Perovskite Materials: Solar Cell and Optoelectronic Applications
    413. Phase Diagram
    414. Phase Rule
    415. Phosphates: Solid-State Chemistry
    416. Phosphides: Solid-State Chemistry
    417. Photoconductivity
    418. Polaron
    419. Polyphosphazenes
    420. Polysiloxanes & Polysilanes
    421. Porous Inorganic Materials
    422. Quantum Dots
    423. Quantum-Size Effect
    424. Quasicrystals
    425. Recent Advances in Single-Atom Catalysis
    426. Role of Mixed Metal Oxides in Heterogeneous Catalysis
    427. Schottky Defects
    428. Self-Assembled Inorganic Architectures
    429. Semiconductor Interfaces
    430. You have free access to this content
      Semiconductor Nanocrystal Quantum Dots
    431. Semiconductor Nanocrystals: Doped Compositions
    432. Semiconductor Nanowires
    433. Semiconductor/Ceramic Nanocomposites: Synthesis, Characterization, and Properties
    434. Semiconductors
    435. Silica
    436. Silicon-Based Nanoparticles for Biosensing and Biomedical Applications
    437. Single-Walled Carbon Nanotubes: Functionalization by Intercalation
    438. Smelting
    439. Sol–Gel Encapsulation of Metal and Semiconductor Nanocrystals
    440. Sol–Gel Synthesis of Solids
    441. Solid Solution
    442. Solids: Characterization by Powder Diffraction
    443. Solids: Computer Modeling
    444. Solids: Defects
    445. Spinels
    446. Structure & Property Maps for Inorganic Solids
    447. Superconductivity
    448. Superconductivity in Solids
    449. Superhard Materials
    450. Supported Organotransition Metal Compounds
    451. Supramolecular Materials: Assemblies Based on Square-Complexation
    452. Supramolecular Materials: Metal–Quinonoid Complexes
    453. Surface States
    454. Surfaces
    455. Thermite Reaction
    456. Thermoelectric Materials
    457. Thin Film Synthesis of Solids
    458. Titanium Dioxide Nanomaterials
    459. Tribology
    460. Vacant Site
    461. Valence Band
    462. Valence Band Edge
    463. Vibronic Coupling
    464. X-ray Absorption Spectroscopy
    465. X-ray Crystallography
    466. X-ray Diffraction
    467. XANES
    468. Zeolites
    469. Zintl Compounds
    470. ZSM
    471. Acceptor Level
    472. Alloys
    473. Alumina
    474. Anderson Localization
    475. Anisotropic 3D Colloidal Quantum Nanostructures
    476. Antiferromagnetism
    477. Antistructure
    478. Asymmetric Unit
    479. Auger Spectroscopy
    480. Band Gap
    481. Band Theory
    482. BCS Theory
    483. Biologically Templated Nanostructure Assemblies
    484. Biomedical Applications of Magnetic Nanoparticles
    485. Biomimetic Chemistry of Hybrid Materials
    486. Biomineralization: Peptide-Mediated Synthesis of Materials
    487. Biomineralization: Self-Assembly Processes
    488. Bismuth: Inorganic Chemistry
    489. Bismuth: Organometallic Chemistry
    490. Borates: Solid-State Chemistry
    491. Borides: Solid-State Chemistry
    492. Borosilicate Glass
    493. Brillouin Zone
    494. Buckminsterfullerene
    495. Carbides: Transition-Metal Solid-State Chemistry
    496. Carbon Nanotubes and Nanocomposites for Electrical and Thermal Applications
    497. Carbon Nanotubes, Multi-Walled
    498. Carbon Nanotubes: Fluorinated Derivatives
    499. Carbon–Carbon & Carbon–Heteroatom Activation
    500. Ceramic Material
    501. Ceramics
    502. Chalcogenides: Solid-State Chemistry
    503. Charge Carrier
    504. Charge Density Wave
    505. Chemical Aspects of Itinerant Magnetism
    506. Chemical Vapor Deposition
    507. Chevrel Phases
    508. Chimie Douce
    509. Clay Minerals
    510. Close Packing
    511. Color
    512. Compound Semiconductor
    513. Conduction Band
    514. Conduction Band Edge
    515. Cooper Pair
    516. Crystal Orbitals
    517. Crystal Structures
    518. Crystallographic Radius
    519. Crystallographic Shear
    520. Defects in Solids
    521. Density of States
    522. Derivative Structure
    523. Dielectric Polarizabilities of Oxides & Fluorides
    524. Differential Scanning Calorimetry
    525. Diffraction Methods in Inorganic Chemistry
    526. Direct Band Gap
    527. Donor Level
    528. Electrides
    529. Electron Microscopy
    530. Electronic Structure of Solids
    531. Endohedral Fullerenes
    532. Energy Bands
    533. F-Center
    534. Faujasite
    535. Fermi Level
    536. Fermi Surface
    537. Ferromagnetic Insulator
    538. First Row Transition Metal Phosphides
    539. Fluorides: Solid-State Chemistry
    540. Frenkel Defects
    541. Fuel Cells: Intermediate Temperature Solid Oxides
    542. Fullerenes: Metal Complexes
    543. Fullerenes: Nanoscale-Ordered Materials
    544. Functional Supramolecular Hybrid Materials
    545. Gold Nanoparticles as Chemical Catalysts
    546. Gold Nanoparticles: Monolayer-Protected Scaffolds and Building Blocks
    547. Grain Boundary
    548. Halides: Solid-State Chemistry
    549. Hemozoin: Crystal Engineering Survivability
    550. Heterogeneous Catalysis by Metals
    551. High-Pressure Synthesis of Solids
    552. High-Temperature Limit
    553. High-Temperature Superconductivity
    554. Holes
    555. Hydrides: Solid State Transition Metal Complexes
    556. Incommensurate Structure
    557. Indirect Band Gap
    558. Inorganic Nanobelt Materials
    559. Inorganic Nanocrystals: Patterning and Assembling
    560. Inorganic Nanomaterials Synthesis Using Alkalide Reduction
    561. Inorganic Nanomaterials Synthesis Using Ionic Liquids
    562. Inorganic Nanomaterials Synthesis Using Liquid Crystals
    563. Inorganic Nanotubes
    564. Inorganic Semiconductor Nanomaterials for High-Performance Flexible Electronics
    565. Inorganic Spintronic Materials
    566. Insulator
    567. Intercalation Chemistry
    568. Intergrowth Structures
    569. Intermetallics
    570. Ionic Conductors
    571. Kapustinskii Equation
    572. Lanthanide Nanoparticles for Medical Imaging
    573. Lattice Energy
    574. Liquid Crystal
    575. Liquid-Phase Synthesis of Inorganic Nanoparticles
    576. Lithium–Ion Batteries: Li–6 MAS NMR Studies on Materials
    577. Lithophiles
    578. Magnetic Oxides
    579. Magnetism of Extended Arrays in Inorganic Solids
    580. Mass Defect
    581. Metal Nanoparticles, Synthesis of
    582. Metal Nanoparticles: Electronic Properties, Bioresponse, and Synthesis
    583. Metal Organic Framework (MOF)
    584. Metal Oxide Nanoparticles
    585. Metal–Organic Frameworks: Adsorption of Hydrocarbons and Alcohols
    586. Metal–Organic Frameworks: Frameworks Containing Open Sites
    587. Metal–Organic Frameworks: Functional Magnetic Materials with Formate
    588. Metal–Organic Frameworks: Gas Storage
    589. Metal–Organic Frameworks: Host Photoreactive Properties
    590. Metal–Organic Frameworks: Postsynthetic Modification
    591. Metal–Organic Frameworks: Semiconducting Frameworks
    592. Metal–Insulator Transitions
    593. Metal-Organic Frameworks: Coordination Polymer Nanoparticles and Macrostructures
    594. Metal-Organic Frameworks: Edible Frameworks
    595. Metal-Organic Frameworks: Aluminium-Based Frameworks
    596. Metal-Organic Frameworks: Application to Analytical Chemistry
    597. Metal-Organic Frameworks: Derived from Single Molecule Magnets
    598. Metal-Organic Frameworks: Electrochemical Properties
    599. Metal-Organic Frameworks: Fluorinated Frameworks
    600. Metal-Organic Frameworks: Frameworks in Mixed-Matrix Membranes
    601. Metal-Organic Frameworks: Harmful Gas Removal
    602. Metal-Organic Frameworks: Interpenetration and Entanglement
    603. Metal-Organic Frameworks: Materials Patterning
    604. Metal-Organic Frameworks: Mechanochemical Synthesis Strategies
    605. Metal-Organic Frameworks: Meso-Porous Frameworks
    606. Metal-Organic Frameworks: Metal-Uptake
    607. Metal-Organic Frameworks: Nanoscale Frameworks
    608. Metal-Organic Frameworks: NMR Studies of Quadrupolar Nuclei
    609. Metal-Organic Frameworks: Photoreactive Frameworks
    610. Metal-Organic Frameworks: Polyrotaxane Frameworks
    611. Metal–Organic Frameworks: Porphyrinic Frameworks
    612. Metal-Organic Frameworks: Single-Crystal-to-Single-Crystal Transformations
    613. Metallic Materials Deposition: Metal-Organic Precursors
    614. Mineralogy
    615. Mineralomimetic
    616. Moh's Hardness
    617. Molecular and Supramolecular Arrays of the [Re63-Se)8]2+ Core-Containing Clusters
    618. Monodisperse Magnetic Nanoparticles: Chemical Synthesis and Surface Modification
    619. Mott–Hubbard Transition
    620. Multicolor Quantum Dots in Molecular Profiling of Cancer Cells and Tissues
    621. Nano-Microporous Materials: Hydrothermal Synthesis of Zeolites
    622. Nano/Microporous Materials: Crystalline Metal-Chalcogenide Superlattices
    623. Nano/Microporous Materials: Hydrogen-Storage Materials
    624. Nano/Microporous Materials: Mesoporous and Surface-Functionalized Mesoporous Carbon
    625. Nano/Microporous Materials: Metal-Ion Sorption Materials
    626. Nano/Microporous Materials: Nanostructured Layered Double Hydroxides
    627. Nano/Microporous Materials: Transition Metal Cyanides
    628. Nanocomposite Materials: Polyhedral Silsesquioxanes
    629. Nanocomposite Materials: Semiconductors in Zeolites
    630. Nanocrystals
    631. Nanoparticle
    632. Nanoporous Metal Phosphonates
    633. Nanostructured Catalysts: Controlling Single-Site Composition
    634. Nitrides: Transition Metal Solid-State Chemistry
    635. Noncrystalline Solids
    636. Nonlinear Optical Materials
    637. Nonstoichiometric Compounds
    638. One-Dimensional Metal
    639. Order–Disorder Transition
    640. Organic Light-Emitting Diode
    641. Organometallic Chemical Vapor Deposition
    642. Oxide Catalysts in Solid-State Chemistry
    643. Oxides: Solid-State Chemistry
    644. Pearson Symbols
    645. Peierls Distortion
    646. Periodic Mesoporous Organosilicas
    647. Perovskite Materials: Solar Cell and Optoelectronic Applications
    648. Phase Diagram
    649. Phase Rule
    650. Phosphates: Solid-State Chemistry
    651. Phosphides: Solid-State Chemistry
    652. Photoconductivity
    653. Polaron
    654. Polyphosphazenes
    655. Polysiloxanes & Polysilanes
    656. Porous Inorganic Materials
    657. Quantum Dots
    658. Quantum-Size Effect
    659. Quasicrystals
    660. Recent Advances in Single-Atom Catalysis
    661. Role of Mixed Metal Oxides in Heterogeneous Catalysis
    662. Schottky Defects
    663. Self-Assembled Inorganic Architectures
    664. Semiconductor Interfaces
    665. You have free access to this content
      Semiconductor Nanocrystal Quantum Dots
    666. Semiconductor Nanocrystals: Doped Compositions
    667. Semiconductor Nanowires
    668. Semiconductor/Ceramic Nanocomposites: Synthesis, Characterization, and Properties
    669. Semiconductors
    670. Silica
    671. Silicon-Based Nanoparticles for Biosensing and Biomedical Applications
    672. Single-Walled Carbon Nanotubes: Functionalization by Intercalation
    673. Smelting
    674. Sol–Gel Encapsulation of Metal and Semiconductor Nanocrystals
    675. Sol–Gel Synthesis of Solids
    676. Solid Solution
    677. Solids: Characterization by Powder Diffraction
    678. Solids: Computer Modeling
    679. Solids: Defects
    680. Spinels
    681. Structure & Property Maps for Inorganic Solids
    682. Superconductivity
    683. Superconductivity in Solids
    684. Superhard Materials
    685. Supported Organotransition Metal Compounds
    686. Supramolecular Materials: Assemblies Based on Square-Complexation
    687. Supramolecular Materials: Metal–Quinonoid Complexes
    688. Surface States
    689. Surfaces
    690. Thermite Reaction
    691. Thermoelectric Materials
    692. Thin Film Synthesis of Solids
    693. Titanium Dioxide Nanomaterials
    694. Tribology
    695. Vacant Site
    696. Valence Band
    697. Valence Band Edge
    698. Vibronic Coupling
    699. X-ray Absorption Spectroscopy
    700. X-ray Crystallography
    701. X-ray Diffraction
    702. XANES
    703. Zeolites
    704. Zintl Compounds
    705. ZSM
    706. Acceptor Level
    707. Alloys
    708. Alumina
    709. Anderson Localization
    710. Anisotropic 3D Colloidal Quantum Nanostructures
    711. Antiferromagnetism
    712. Antistructure
    713. Asymmetric Unit
    714. Auger Spectroscopy
    715. Band Gap
    716. Band Theory
    717. BCS Theory
    718. Biologically Templated Nanostructure Assemblies
    719. Biomedical Applications of Magnetic Nanoparticles
    720. Biomimetic Chemistry of Hybrid Materials
    721. Biomineralization: Peptide-Mediated Synthesis of Materials
    722. Biomineralization: Self-Assembly Processes
    723. Bismuth: Inorganic Chemistry
    724. Bismuth: Organometallic Chemistry
    725. Borates: Solid-State Chemistry
    726. Borides: Solid-State Chemistry
    727. Borosilicate Glass
    728. Brillouin Zone
    729. Buckminsterfullerene
    730. Carbides: Transition-Metal Solid-State Chemistry
    731. Carbon Nanotubes and Nanocomposites for Electrical and Thermal Applications
    732. Carbon Nanotubes, Multi-Walled
    733. Carbon Nanotubes: Fluorinated Derivatives
    734. Carbon–Carbon & Carbon–Heteroatom Activation
    735. Ceramic Material
    736. Ceramics
    737. Chalcogenides: Solid-State Chemistry
    738. Charge Carrier
    739. Charge Density Wave
    740. Chemical Aspects of Itinerant Magnetism
    741. Chemical Vapor Deposition
    742. Chevrel Phases
    743. Chimie Douce
    744. Clay Minerals
    745. Close Packing
    746. Color
    747. Compound Semiconductor
    748. Conduction Band
    749. Conduction Band Edge
    750. Cooper Pair
    751. Crystal Orbitals
    752. Crystal Structures
    753. Crystallographic Radius
    754. Crystallographic Shear
    755. Defects in Solids
    756. Density of States
    757. Derivative Structure
    758. Dielectric Polarizabilities of Oxides & Fluorides
    759. Differential Scanning Calorimetry
    760. Diffraction Methods in Inorganic Chemistry
    761. Direct Band Gap
    762. Donor Level
    763. Electrides
    764. Electron Microscopy
    765. Electronic Structure of Solids
    766. Endohedral Fullerenes
    767. Energy Bands
    768. F-Center
    769. Faujasite
    770. Fermi Level
    771. Fermi Surface
    772. Ferromagnetic Insulator
    773. First Row Transition Metal Phosphides
    774. Fluorides: Solid-State Chemistry
    775. Frenkel Defects
    776. Fuel Cells: Intermediate Temperature Solid Oxides
    777. Fullerenes: Metal Complexes
    778. Fullerenes: Nanoscale-Ordered Materials
    779. Functional Supramolecular Hybrid Materials
    780. Gold Nanoparticles as Chemical Catalysts
    781. Gold Nanoparticles: Monolayer-Protected Scaffolds and Building Blocks
    782. Grain Boundary
    783. Halides: Solid-State Chemistry
    784. Hemozoin: Crystal Engineering Survivability
    785. Heterogeneous Catalysis by Metals
    786. High-Pressure Synthesis of Solids
    787. High-Temperature Limit
    788. High-Temperature Superconductivity
    789. Holes
    790. Hydrides: Solid State Transition Metal Complexes
    791. Incommensurate Structure
    792. Indirect Band Gap
    793. Inorganic Nanobelt Materials
    794. Inorganic Nanocrystals: Patterning and Assembling
    795. Inorganic Nanomaterials Synthesis Using Alkalide Reduction
    796. Inorganic Nanomaterials Synthesis Using Ionic Liquids
    797. Inorganic Nanomaterials Synthesis Using Liquid Crystals
    798. Inorganic Nanotubes
    799. Inorganic Semiconductor Nanomaterials for High-Performance Flexible Electronics
    800. Inorganic Spintronic Materials
    801. Insulator
    802. Intercalation Chemistry
    803. Intergrowth Structures
    804. Intermetallics
    805. Ionic Conductors
    806. Kapustinskii Equation
    807. Lanthanide Nanoparticles for Medical Imaging
    808. Lattice Energy
    809. Liquid Crystal
    810. Liquid-Phase Synthesis of Inorganic Nanoparticles
    811. Lithium–Ion Batteries: Li–6 MAS NMR Studies on Materials
    812. Lithophiles
    813. Magnetic Oxides
    814. Magnetism of Extended Arrays in Inorganic Solids
    815. Mass Defect
    816. Metal Nanoparticles, Synthesis of
    817. Metal Nanoparticles: Electronic Properties, Bioresponse, and Synthesis
    818. Metal Organic Framework (MOF)
    819. Metal Oxide Nanoparticles
    820. Metal–Organic Frameworks: Adsorption of Hydrocarbons and Alcohols
    821. Metal–Organic Frameworks: Frameworks Containing Open Sites
    822. Metal–Organic Frameworks: Functional Magnetic Materials with Formate
    823. Metal–Organic Frameworks: Gas Storage
    824. Metal–Organic Frameworks: Host Photoreactive Properties
    825. Metal–Organic Frameworks: Postsynthetic Modification
    826. Metal–Organic Frameworks: Semiconducting Frameworks
    827. Metal–Insulator Transitions
    828. Metal-Organic Frameworks: Coordination Polymer Nanoparticles and Macrostructures
    829. Metal-Organic Frameworks: Edible Frameworks
    830. Metal-Organic Frameworks: Aluminium-Based Frameworks
    831. Metal-Organic Frameworks: Application to Analytical Chemistry
    832. Metal-Organic Frameworks: Derived from Single Molecule Magnets
    833. Metal-Organic Frameworks: Electrochemical Properties
    834. Metal-Organic Frameworks: Fluorinated Frameworks
    835. Metal-Organic Frameworks: Frameworks in Mixed-Matrix Membranes
    836. Metal-Organic Frameworks: Harmful Gas Removal
    837. Metal-Organic Frameworks: Interpenetration and Entanglement
    838. Metal-Organic Frameworks: Materials Patterning
    839. Metal-Organic Frameworks: Mechanochemical Synthesis Strategies
    840. Metal-Organic Frameworks: Meso-Porous Frameworks
    841. Metal-Organic Frameworks: Metal-Uptake
    842. Metal-Organic Frameworks: Nanoscale Frameworks
    843. Metal-Organic Frameworks: NMR Studies of Quadrupolar Nuclei
    844. Metal-Organic Frameworks: Photoreactive Frameworks
    845. Metal-Organic Frameworks: Polyrotaxane Frameworks
    846. Metal–Organic Frameworks: Porphyrinic Frameworks
    847. Metal-Organic Frameworks: Single-Crystal-to-Single-Crystal Transformations
    848. Metallic Materials Deposition: Metal-Organic Precursors
    849. Mineralogy
    850. Mineralomimetic
    851. Moh's Hardness
    852. Molecular and Supramolecular Arrays of the [Re63-Se)8]2+ Core-Containing Clusters
    853. Monodisperse Magnetic Nanoparticles: Chemical Synthesis and Surface Modification
    854. Mott–Hubbard Transition
    855. Multicolor Quantum Dots in Molecular Profiling of Cancer Cells and Tissues
    856. Nano-Microporous Materials: Hydrothermal Synthesis of Zeolites
    857. Nano/Microporous Materials: Crystalline Metal-Chalcogenide Superlattices
    858. Nano/Microporous Materials: Hydrogen-Storage Materials
    859. Nano/Microporous Materials: Mesoporous and Surface-Functionalized Mesoporous Carbon
    860. Nano/Microporous Materials: Metal-Ion Sorption Materials
    861. Nano/Microporous Materials: Nanostructured Layered Double Hydroxides
    862. Nano/Microporous Materials: Transition Metal Cyanides
    863. Nanocomposite Materials: Polyhedral Silsesquioxanes
    864. Nanocomposite Materials: Semiconductors in Zeolites
    865. Nanocrystals
    866. Nanoparticle
    867. Nanoporous Metal Phosphonates
    868. Nanostructured Catalysts: Controlling Single-Site Composition
    869. Nitrides: Transition Metal Solid-State Chemistry
    870. Noncrystalline Solids
    871. Nonlinear Optical Materials
    872. Nonstoichiometric Compounds
    873. One-Dimensional Metal
    874. Order–Disorder Transition
    875. Organic Light-Emitting Diode
    876. Organometallic Chemical Vapor Deposition
    877. Oxide Catalysts in Solid-State Chemistry
    878. Oxides: Solid-State Chemistry
    879. Pearson Symbols
    880. Peierls Distortion
    881. Periodic Mesoporous Organosilicas
    882. Perovskite Materials: Solar Cell and Optoelectronic Applications
    883. Phase Diagram
    884. Phase Rule
    885. Phosphates: Solid-State Chemistry
    886. Phosphides: Solid-State Chemistry
    887. Photoconductivity
    888. Polaron
    889. Polyphosphazenes
    890. Polysiloxanes & Polysilanes
    891. Porous Inorganic Materials
    892. Quantum Dots
    893. Quantum-Size Effect
    894. Quasicrystals
    895. Recent Advances in Single-Atom Catalysis
    896. Role of Mixed Metal Oxides in Heterogeneous Catalysis
    897. Schottky Defects
    898. Self-Assembled Inorganic Architectures
    899. Semiconductor Interfaces
    900. You have free access to this content
      Semiconductor Nanocrystal Quantum Dots
    901. Semiconductor Nanocrystals: Doped Compositions
    902. Semiconductor Nanowires
    903. Semiconductor/Ceramic Nanocomposites: Synthesis, Characterization, and Properties
    904. Semiconductors
    905. Silica
    906. Silicon-Based Nanoparticles for Biosensing and Biomedical Applications
    907. Single-Walled Carbon Nanotubes: Functionalization by Intercalation
    908. Smelting
    909. Sol–Gel Encapsulation of Metal and Semiconductor Nanocrystals
    910. Sol–Gel Synthesis of Solids
    911. Solid Solution
    912. Solids: Characterization by Powder Diffraction
    913. Solids: Computer Modeling
    914. Solids: Defects
    915. Spinels
    916. Structure & Property Maps for Inorganic Solids
    917. Superconductivity
    918. Superconductivity in Solids
    919. Superhard Materials
    920. Supported Organotransition Metal Compounds
    921. Supramolecular Materials: Assemblies Based on Square-Complexation
    922. Supramolecular Materials: Metal–Quinonoid Complexes
    923. Surface States
    924. Surfaces
    925. Thermite Reaction
    926. Thermoelectric Materials
    927. Thin Film Synthesis of Solids
    928. Titanium Dioxide Nanomaterials
    929. Tribology
    930. Vacant Site
    931. Valence Band
    932. Valence Band Edge
    933. Vibronic Coupling
    934. X-ray Absorption Spectroscopy
    935. X-ray Crystallography
    936. X-ray Diffraction
    937. XANES
    938. Zeolites
    939. Zintl Compounds
    940. ZSM
  17. Toxicology
  18. Transition Metals

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