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Galwey A.K. — Thermal Decomposition of Ionic Solids

Galwey A.K. — Thermal Decomposition of Ionic Solids

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Название: Thermal Decomposition of Ionic Solids

Автор: Galwey A.K.

Аннотация:

The principal objective of this book is to stimulate interest in research that will extend available theory towards a greater understanding of the steps involved in solid-state decompositions and the properties of solids that control reactivities. Much of the activity in this field has been directed towards increasing the range of reactants for which decomposition kinetic data is available, rather than extending insights into the fundamental chemistry of the reactions being studied. The first part of the book (Chapters 1-6) is concerned with theoretical aspects of the subject. The second part (Chapters 7-17) surveys groups of reactions classified by similarities of chemical composition. The final Chapter (18) reviews the subject by unifying features identified as significant and proposes possible directions for future progress.
Studies of thermal reactions of ionic compounds have contributed considerably to the theory of solid-state chemistry. Furthermore, many of these rate processes have substantial technological importance, for example, in the manufacture of cement, the exploitation of ores and in the stability testing of drugs, explosives and oxidizing agents. Despite the prolonged and continuing research effort concerned with these reactions, there is no recent overall review. This book is intended to contribute towards correcting this omission. The essential unity of the subject is recognized by the systematic treatment of reactions, carefully selected to be instructive and representative of the subject as a whole. The authors have contributed more than 200 original research articles to the literature, many during their 25 years of collaboration.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 1

Год издания: 1999

Количество страниц: 597

Добавлена в каталог: 05.03.2010

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Предметный указатель

Imperfections and silver oxalate decomposition      456—457
Imperfections, mobilities in crystals      192
Impurities      9 12 19—20 32 42 283
Impurities in oxides      293
Impurities, uranium oxide      305
Incipient nucleus      77
Indium sulfate, decomposition      405
Induction period, reaction      106—110 121—122 142
Influence of cation on carboxylate decomposition      481—482
Infrared spectroscopy      176
Inhomogeneities within reactant mass      541 557
Initial reactions      558
Initial stages of reaction      142 145
Inorganic solid decompositions, classification      532 555
Insulator      18—22
Intercrystal strain      529 557
Intercrystalline water diffusion      272—273
Interface advance      123 165 195 201—202 226 235 251 258—259 282
Interface advance rate      84 86 92 94 97 99 101 107
Interface advance reactions      313
Interface as an extended imperfection      529 556—557
Interface chemistry      126—129 194—209 251
Interface energy levels, spectral studies      534 538 554 559
Interface forms and functions      533 544 552—560
Interface intermediates      194 201—202 529 554 557
Interface reactions      222 233 258—259
Interface reactions, hydroxy halide decompositions      375
Interface structure, electron microscopy      533 553—554
Interface structures      197—198 529 533—534 552—554 557
Interface structures, complex      199
Interface structures, energy levels      128—129
Interface structures, molten layer      127
Interface structures, product catalysis      126—127
Interface structures, textures      134
Interface structures, thick      127
Interface structures, topotactic      126 134
Interface texture, electron microscopy      533 553—554
Interface textures      194 201—202
Interface, bond redistribution steps      195
Interface, coherent      91—92
Interface, high molecularity encounters      195
Interface, reactant/product      76 77 85 110—111 125
Interface, reaction mechanism      196 207
Interface, reaction precursors      194 201—202
Interface, stoichiometry      196
Intergranular material      15
Intermediate identification      173—194
Intermediate phases      231 258—259
Intermediates at reaction interface      529 554
Interstitial carbides      313
Interstitial ion      10
Interstitial nitrides      313
Intralattice spacings and dehydration      511
Inverse kinetic problem (IKP)      153—156
Iodates, Group IA metal, decompositions      372
Ionic crystal decompositions      530
Iridium oxide, decomposition      305
Iron hydroxide gel, crystallization      278—279
Iron hydroxide gel, dehydration      278—280
Iron hydroxides, dehydrations      278—280
Iron nitride, decomposition      320
Iron oxalates, decompositions      453—454 485—486
Iron oxides, decompositions      304
Iron sulfate heptahydrate, dehydration      236
Iron sulfates, decompositions      400—401 406
Iron sulfide, decomposition      321—322
Irradiation of crystals      194
Irradiation, crystal defects      194
Irradiation, Group IIA metal perchlorates      369
Irreversible reactions      122
Isokinetic behaviour      130—133 541—542
Isokinetic temperature      569G
Isomerization in solid coordination compounds      513 518 520 522
Isothermal and non-isothermal kinetic comparisons      166—167
Isothermal kinetic studies      61 118 139—147 166—167
Isothermal solid state reactions      106—110
Isothiocyanatopentaammine cobalt(III) perchlorate, decomposition      513
Isotope effects in dehydration      261
Jander rate equation      98—99
JMAEK rate equation      89—91
Johnson — Mehl rate equation      see “JMAEK rate equation”
Kaolinite, dehydration      285
Kinetic analyses      61
Kinetic analysis of complex reactions      163—164
Kinetic analysis, Avrami — Erofeev      149—151
Kinetic analysis, Borchart and Daniels method      159—160
Kinetic analysis, Carroll and Manche method      157
Kinetic analysis, complex materials      164
Kinetic analysis, derivative (differential) methods      147 157—160 162
Kinetic analysis, diffusion models      149—151
Kinetic analysis, Flynn and Wall method      160
Kinetic analysis, Flynn method      157
Kinetic analysis, Freeman and Carroll method      158
Kinetic analysis, Friedman method      157
Kinetic analysis, geometric models      149—153
Kinetic analysis, integral methods      160—162
Kinetic analysis, isoconversional methods      156
Kinetic analysis, Kissinger method      159—160
Kinetic analysis, non-linear regression      162—163
Kinetic analysis, Ozawa method      159
Kinetic analysis, partial melting      204—205
Kinetic analysis, rate equation identification      165
Kinetic analysis, reaction order      147—149
Kinetic analysis, reduced temperature      156—157
Kinetic analysis, Sestak — Berggren equation      154
Kinetic analysis, temperature integral      161
Kinetic characteristics      542 554
Kinetic equations, distinguishability      539
Kinetic interpretation, microscopy      186—190
Kinetic measurements, analysis      139—167
Kinetic measurements, atmospheric effects      535—537
Kinetic measurements, interpretation      139—167
Kinetic models      75—111 567G
Kinetic models, Table 3.3      103—105
Kinetic parameters, inhomogeneity in reactant      540
Kinetic parameters, irreversible reactions      539
Kinetic parameters, migrating species      540
Kinetic parameters, procedural variables      539—540
Kinetic parameters, programmed temperature      540
Kinetic parameters, rate of forward reaction      540
Kinetic parameters, reliability      539 556—558
Kinetic parameters, reversible reactions      539
Kinetic rate equation, Austin — Rickett      95—96
Kinetic rate equation, Avrami — Erofeev      see also “JMAEK rate equation 89 91 96 99 103 107—108
Kinetic rate equation, contracting area or disc      93 104
Kinetic rate equation, contracting cube or volume      92 98—99 101 104 108—110
Kinetic rate equation, Dunwald — Wagner      99
Kinetic rate equation, first-order      90—91 100 108
Kinetic rate equation, Ginstling — Brounshtein      98
Kinetic rate equation, Jander      98—99
Kinetic rate equation, JMAEK      89 91
Kinetic rate equation, linear      98
Kinetic rate equation, logarithmic      98
Kinetic rate equation, parabolic      98
Kinetic rate equation, power law      88 103
Kinetic rate equation, Prout — Tompkins      95—96
Kinetic rate equation, zero-order      92—93 105 108—110
Kinetic rate equations, acceleratory      102—111
Kinetic rate equations, deceleratory      102—111
Kinetic rate equations, diffusion control      96—111
Kinetic rate equations, exponential      94 103
Kinetic rate equations, geometric      102—111
Kinetic rate equations, geometric with diffusion control      98—100
Kinetic rate equations, order of reaction      100 102—111
Kinetic rate equations, Sestak — Berggren      102
Kinetic rate equations, sigmoid      102—111
Kinetics, nucleation and growth      86 89—90 92
Kissinger method of kinetic analysis      159—160
Knudsen effusion      271
Lanthanide bromates, decompositions      373

Lanthanide chromates, decompositions      389—390
Lanthanide iodates, decompositions      373
Lanthanide oxalates, decompositions      460—461
Lanthanum oxalate, decomposition      460
Lanthanum oxychloride, decomposition      375
Lattice vacancy      10 22—23
Layer silicates, dehydrations      283—287
Layer silicates, dehydroxylations      283—287
Lead azide, decomposition      336—337 339
Lead azide, decomposition and particle size      336
Lead azide, decomposition, additives      336—337
Lead azide, detonation      336
Lead azide, photolysis      337
Lead carbonates, decompositions      354 357—358
Lead chlorate, decomposition      371
Lead chlorite, decomposition      374
Lead citrate, decomposition      475—477
Lead hydride, decomposition      315
Lead nitrate, decomposition      394
Lead nitrite, decomposition      395
Lead oxalate, decomposition      464
Lead oxides, crystalline phases      301—302
Lead oxides, decompositions      301—302
Lead styphnate monohydrate, dehydration      252—253
Lead styphnate, decomposition      477—478
Lead sulfate, decomposition      408
Ligand      493
Ligand reactions in coordination compounds      518—520
Lignite, dehydration      253
Line defects      12
Linear rate equation      98
Linearity of kinetic plots      143
Linearity of kinetic plots, statistical tests      143—144 167
Liquefaction, local      203—205
Liquid crystals      4
Literature of decompositions of solids      548—551
Literature survey (TCA)      549—551
Literature survey (TCA), coordination compounds      550
Literature survey (TCA), dehydrations      549—550
Literature survey (TCA), instrumentation      551
Literature survey (TCA), reactions of simple salts      549—550
Literature survey (TCA), theory and kinetic analysis      551
Lithium aluminium hydride, decomposition      316
Lithium azide, decomposition      333
Lithium orthophosphate, decomposition      397
Lithium oxalate, decomposition      461—462
Lithium permanganate, decomposition      386—387
Lithium peroxide, decomposition      297
Lithium potassium tartrate hydrates, dehydration      250—252
Lithium sulfate monohydrate, dehydration      127 133 234—235
Logarithmic rate equation      98
Magnesium acetate, decomposition      450
Magnesium carbonate trihydrate, dehydration      241
Magnesium carbonate, decomposition      349 358 360
Magnesium chloride dihydrate, dehydration      243
Magnesium chromate, decomposition      389—390
Magnesium hydrogen phosphate, decomposition      397
Magnesium hydroxide, dehydration      270—271
Magnesium iodate, decomposition      372—373
Magnesium oxalate dihydrate, dehydration      247
Magnesium oxalate, decomposition      459
Magnesium perchlorate, decomposition      367
Magnesium peroxide, decomposition      298
Magnesium sulfate hydrates, dehydration      231—232
Magnesium sulfate, decomposition      400 402 405
Magnetic properties of solids      191—192
Magnetic susceptibilities      191
Maleates, metal, decompositions      469 471—475
Malonates, metal, decompositions      469 471—475 544
Manganese acetate hydrate,decomposition      451
Manganese carbonate, decomposition      355—356 359—360
Manganese formate dihydrate, dehydration      250
Manganese hydroxide, dehydration      278
Manganese malonate, decomposition      474
Manganese oxalate dihydrate, dehydration      246—247
Manganese oxalate, decomposition      455—456
Manganese oxides, crystalline phases      303—304
Manganese oxides, decompositions      287 303—304
Manganese oxyhydroxides, dehydrations      287
Manganese sulfate, decomposition      400 405
Manganese, hydrated oxides, dehydrations      304
Manganese-calcium carbonate, decomposition      355 358
Mass spectrometry (MS)      62
Maxwell — Boltzmann equation      48 128—129
Mechanical activation      203
Mechanism of reaction, formulation      194—208 295 296
Mechanisms of coordination compound decompositions      520—522
Mechanisms of decomposition      67 69 174 196—202 207—208
Mechanisms of reaction      111 124—125 133—134 148 165—167
Mechanochemistry      202—203
Mellitates, metal, decompositions      467—468 482
Melt, metal oxyhalide decomposition      366 376
Melting      3 36—38 51 67 100 111 242 252 257—259
Melting and decomposition, nitrates and nitrites      390—395
Melting during decompositions      547 554
Melting, caesium bromate decomposition      371
Melting, comprehensive      205
Melting, crystalline solids      532
Melting, intracrystalline      251 258—259
Melting, local, partial, temporary      205
Melting, potassium perchlorate decomposition      366
Melting, solid reactant      203—205
Melting, thin layer      205
Mercury azide, decomposition      337
Mercury fulminate, decomposition      338
Mercury oxalate, decomposition      464
Mercury oxide, decomposition      301
Metal cyanamides and fulminates, decompositions      337—339
Metal hydroxides, Group IIA, dehydrations      270—273
Metal malonates, decompositions      542—543
Metal oxalates, decompositions      544
Metal oxidations      308 325
Metal product, catalytically active      544 557
Metallic crystals, decompositions      531
Metallic nucleus generation, barium azide      332
Metastable intermediates      221
Metastable product      224
Mica, decomposition      286
Microscopic examination, growth      83—86 110
Microscopic examination, nucleation      80 110
Microscopic observations      537 554
Microscopic observations and geometry of interface development      537 554
Microscopic studies, limitations      537
Microscopy      142 166 175 186—190 206 230 240 260
Microscopy, atmosphere control      188
Microscopy, atomic force      189—190
Microscopy, azide decompositions      339
Microscopy, detection of melting      188 203—204
Microscopy, electron      63 69 188—189 241
Microscopy, high resolution      189
Microscopy, optical      63 69
Microscopy, phase contrast techniques      187
Microscopy, polarized illumination      187
Microscopy, reflection interference      187
Microscopy, replication techniques      64 188 537
Microscopy, temperature control      188
Mixed hydroxides, thermal reactions      283
Mixed oxide catalysts      282
Mobilities of imperfections      32 192
Mobility of ions      10 24
Mobility of ions, interstitial      22—23
Mobility of ions, vacancy      22—23
Mobility, intracrystalline, binary compounds      313 321 324—325
Mole, in solid state reactions      68
Molecular crystals, decompositions      531—532
Molecular organic compounds      441
Molybdenum sulfide, decomposition      323
Molybdic acid, dehydration      245—246
Mononuclear coordination compounds, decompositions      495—511
Mononuclear coordination with polydentate ligands      512—517

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