Molecular Sieves: Principles of Synthesis and IdentificationSpringer Science & Business Media, 1998 - 359 páginas The porous structure of molecular sieves, combined with their chemical composition, makes them uniquely suitable for use as catalysts or catalytic supports. As such, the materials are used in a wide range of chemical reactions, and as components of formulated products. The shape selectivity of the materials further enhances their chemical usefulness, and exploitation of their unique absorption properties holds the key to improving their catalytic properties. To that end, great efforts are being made to find new of different molecular sieves, with altered or tailored structures or chemical composition. The synthesis and characterisation of molecular sieve materials is a considerable challenge, testing both the chemist's understanding and practical skills. In a thorough overhaul of the very successful first edition of this book, the author guides the reader in the basics of sieve structure, synthesis and characterisation, and points the way to the development of new or improved sieve materials. By covering both the principles and practical aspects of sieve synthesis and characterisation, professional chemists, particularly those involved in industrial research and development, will find this book an essential guide to the current state of the art, and a useful starting point in their own research. Academic chemists, including postgraduate students, will find this book an invaluable guide to this exciting and important area of chemistry. |
Conteúdo
III | 1 |
V | 3 |
VII | 4 |
VIII | 5 |
IX | 6 |
X | 11 |
XI | 13 |
XII | 18 |
CXII | 154 |
CXIV | 156 |
CXV | 159 |
CXVI | 160 |
CXVII | 163 |
CXVIII | 165 |
CXIX | 167 |
CXXI | 168 |
XIII | 20 |
XIV | 21 |
XV | 22 |
XX | 23 |
XXI | 24 |
XXIII | 26 |
XXIV | 27 |
XXV | 29 |
XXVIII | 30 |
XXIX | 31 |
XXXI | 33 |
XXXII | 34 |
XXXIII | 36 |
XXXIV | 37 |
XXXV | 44 |
XXXVI | 45 |
XXXVII | 46 |
XXXVIII | 47 |
XXXIX | 49 |
XL | 51 |
XLIII | 54 |
XLIV | 57 |
XLV | 58 |
XLVI | 59 |
XLVII | 62 |
XLIX | 63 |
L | 64 |
LI | 65 |
LII | 66 |
LIII | 67 |
LV | 68 |
LVI | 71 |
LVII | 72 |
LIX | 73 |
LX | 74 |
LXI | 77 |
LXIII | 78 |
LXIV | 81 |
LXV | 83 |
LXVI | 87 |
LXVII | 91 |
LXVIII | 93 |
LXX | 94 |
LXXII | 97 |
LXXIII | 98 |
LXXIV | 100 |
LXXV | 102 |
LXXVI | 104 |
LXXVIII | 107 |
LXXIX | 111 |
LXXX | 113 |
LXXXI | 114 |
LXXXIII | 116 |
LXXXIV | 117 |
LXXXVI | 121 |
LXXXVIII | 123 |
LXXXIX | 124 |
XC | 125 |
XCI | 126 |
XCIV | 127 |
XCV | 128 |
XCVI | 129 |
XCVII | 130 |
XCVIII | 131 |
C | 132 |
CI | 138 |
CII | 139 |
CIII | 142 |
CIV | 143 |
CV | 144 |
CVI | 145 |
CVIII | 147 |
CIX | 149 |
CXI | 150 |
CXXII | 170 |
CXXIII | 172 |
CXXIV | 174 |
CXXV | 175 |
CXXVI | 176 |
CXXVII | 177 |
CXXVIII | 181 |
CXXIX | 182 |
CXXX | 183 |
CXXXII | 185 |
CXXXIII | 186 |
CXXXV | 192 |
CXXXVII | 193 |
CXXXIX | 198 |
CXLI | 199 |
CXLII | 201 |
CXLIII | 203 |
CXLIV | 205 |
CXLV | 208 |
CXLVIII | 210 |
CXLIX | 214 |
CL | 219 |
CLI | 221 |
CLIII | 225 |
CLIV | 226 |
CLV | 227 |
CLVI | 229 |
CLVII | 233 |
CLVIII | 235 |
CLIX | 237 |
CLX | 238 |
CLXI | 239 |
CLXII | 241 |
CLXIII | 242 |
CLXV | 243 |
CLXVI | 244 |
CLXVII | 251 |
CLXIX | 252 |
CLXX | 254 |
CLXXI | 256 |
CLXXIII | 259 |
CLXXIV | 262 |
CLXXV | 264 |
CLXXIX | 265 |
CLXXX | 267 |
CLXXXI | 268 |
CLXXXII | 269 |
CLXXXIII | 270 |
CLXXXIV | 271 |
CLXXXV | 274 |
CLXXXVII | 278 |
CXC | 279 |
CXCI | 280 |
CXCII | 286 |
CXCIII | 290 |
CXCIV | 291 |
CXCV | 295 |
CXCVI | 298 |
CXCVIII | 300 |
CC | 306 |
CCI | 307 |
CCII | 308 |
CCIV | 309 |
CCV | 310 |
CCVII | 312 |
CCVIII | 314 |
CCIX | 316 |
CCX | 317 |
CCXII | 318 |
CCXIII | 319 |
CCXIV | 323 |
CCXV | 336 |
349 | |
Outras edições - Ver todos
Molecular Sieves: Principles of Synthesis and Identification Rosemarie Szostak Visualização parcial - 2013 |
Molecular Sieves: Principles of Synthesis and Identification Rosemarie Szostak Visualização parcial - 1998 |
Termos e frases comuns
A(LTA acid Acta Crystallogr adsorbed adsorption AIPO4 aluminate aluminophosphate aluminosilicate aluminum American Chemical Society Amsterdam analcime(ANA analog anions batch composition boron building units cancrinite Catal catalytic Chem Chemistry containing cristobalite crystalline diffraction pattern E.M. Flanigen Elsevier faujasite faults formation framework gallium gallosilicate germanium H.G. Karge hydrothermal hydroxide infrared inorganic iron silicate J.C. Jansen method Microporous Materials Mineral molecular sieves mordenite mordenite(MOR natural zeolites nucleation observed organic additive organic amine organic cations oxide P.A. Jacobs Phys prepared presence produce R.M. Barrer reaction mixture ring S.I. Zones sample Science and Catalysis shown in Figure Si/Al ratio silicalite(MFI silicate species silicon SiO2 SiO2/Al2O3 ratio sodalite sodium solution spectra Studies in Surface Surface Science synthetic Szostak Table temperature tetrahedral thermal topology unit cell W.M. Meier Weitkamp X-ray powder diffraction Y(FAU zeolite crystallization zeolite phases Zeolite Science zeolite structures zeolite synthesis