| 1 |
Synthesis of Metal-Oxide Nanoparticles: Liquid-Solid Transformations, Structure and Bonding, Synthesis |
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| 2 |
Microemulsion Technique, Solvothermal Technique |
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| 3 |
Other Methods for Characterization |
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| 4 |
Fluoride Ion Donor Properties of XeF4, [Mg(XeF2)(XeF4)][AsF6]2, Salts of the [XeF3]+ Cation, Crystal Structures of [XeF3]+ Salts |
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| 5 |
Syntheses of F4−nXe(OTeF5)n (n =1 −4) and Characterization by 19F and 129Xe NMR Spectroscopy, Characterization of Xe(OTeF5)4 by Raman Spectroscopy and X-ray Diffraction, 19F and 129Xe NMR Studies of [FnXe(OTeF5)3−n]+ (n =0−2), 19F and 129Xe NMR Studies of F3XeOIOF, Possible Existence of Xe(OCOCF3)4, Salts of the [C6F5XeF2]+ Cation, Structures of [C6F5XeF2][BF4], [C6F5XeF2][BF4]•1.5CH3CN,and[C6F5XeF2][BF4]•2HF |
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| 6 |
Some Topics on Hydrogen Bonds, Natures and Properties, Different Categories, Physical chemistry |
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| 7 |
Resonance Assisted Bonding (RAHB), σ-Bond cooperativity, Anticooperativity |
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| 8 |
Some other topics related to sonolysis |
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| 9 |
Coprecipitation Methods, Sonochemical, Sol-Gel Processing |
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| 10 |
SEM, TEM, AFM |
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| 11 |
Pulsed Laser Deposition, PLD, PLD Advantages, Comparison of PLD with Other Deposition Techniques, PLD Process/Mechanism, Reactive PLD, RPLD Advantages |
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| 12 |
The Chemistry of Xenon(IV), Xenon Tetrafluoride, XeF4, Synthesis of XeF4, Structural Characterization and Physical Properties of XeF4, Molecular Addition Compounds of XeF4, XeF4•XeF2 |
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| 13 |
Applications |
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| 14 |
Xenon(IV) and Mixed Oxidation State Xenon(II)/Xenon(IV) Hydroxy Fluoride Cations, Structures of [HOXeF2]+, [HOXe(F)2OXeF2]+, [FXeIIOXeIVF2]+, and [FXeIIOXeIV(F)2OXeIVF2]+, Xenon Dioxide, XeO2, Implications of XeO2 on Earth’s Missing Xenon, Polyatomic Ligand Derivatives of Xenon(IV), Xenon(IV) Derivatives of the F5TeO-Group |
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| 15 |
Comparison with ClF3, BrF3, and IF3, Fluoride Ion Acceptor Properties of XeF4; The [XeF5]− Anion, X-ray Crystal Structure of [N(CH3)4][XeF5], 19F and 129Xe NMR Spectra of [XeF5]−, The Oxide Fluoridesand Oxide of Xenon(IV), Syntheses and Properties of XeOF2,F2OXeNCCH3, and XeOF2•nHF, The [XeOF3]− Anion |
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| 16 |
Some Topics on NMR Couplings (Short Ranges and Long Ranges) |
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| 17 |
Some Topics on NMR Couplings (Short Ranges and Long Ranges) |
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| 18 |
Cooperativity, Patterns, Graph-set Theory |
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| 19 |
Hydrogen-Bond Lengths vs van der Waals Radii Sums, Some strong O-H…O bonds are disordered by crystallography symmetry |
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| 20 |
Some Complementary Sections |
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| 21 |
Probability of Formation, IR Spectroscopy, Acceptor Dirctionality |
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| 22 |
Synthesis of Metal-Oxide Nanoparticles: Gas-Solid Transformations, Chemical Vapor Deposition, Types of CVD Processes, Thermally Activated CVD, MOCVD, PACVD and PCVD, Comparison of CVD with Other Deposition Techniques, CVD System Requirements |
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| 23 |
Other Non-covalent Interactions |
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| 24 |
Some Complementary Sections |
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