The Chemistry of Transition Metal Carbides and NitridesSpringer Science & Business Media, 1996/01/31 - 536 ページ This book arose from a symposium titled 'Transition Metal Carbides and Nitrides: Preparation, Properties, and Reactivity' organized by Jae Sung Lee, Masatoshi Nagai and myself. The symposium was part of the 1995 Congress of Pacific Rim Chemical Societies, held in Honolulu, Hawaii between December 17-22, 1995. The meeting was the first major conference to exclusively address the theme of metal carbides and nitrides, and brought together many of the major researchers in the field. Over 50 scientists and engineers reported their latest findings in five sessions of presentations and discussions. The book closely follows the topics covered in the conference: Theory of bonding Structure and composition Catalytic properties Physical properties New methods of preparation Spectroscopy and microscopy The book is unique in its coverage. It provides a general introduction to the properties and nature of the materials, but also covers their latest applications in a wide variety of fields. It should thus be of interest to both experts and nonexperts in the fields of material science, solid-state chemistry, physics, ceramics engineering, and catalysis. The first chapter gives an overview, and many of the chapters provide summaries of advanced topics. All contributions were peer-reviewed. |
目次
I | 1 |
IV | 2 |
V | 5 |
VI | 6 |
VII | 9 |
VIII | 14 |
X | 16 |
XI | 19 |
CLXXVII | 292 |
CLXXVIII | 293 |
CLXXIX | 295 |
CLXXX | 297 |
CLXXXII | 304 |
CLXXXIII | 308 |
CLXXXIV | 309 |
CLXXXVI | 311 |
XII | 22 |
XIII | 23 |
XIV | 24 |
XV | 28 |
XVIII | 31 |
XIX | 33 |
XX | 34 |
XXI | 36 |
XXII | 37 |
XXIII | 41 |
XXIV | 43 |
XXVI | 44 |
XXVIII | 46 |
XXX | 48 |
XXXII | 50 |
XXXVI | 52 |
XXXVII | 53 |
XL | 54 |
XLI | 61 |
XLII | 71 |
XLIII | 72 |
XLIV | 73 |
XLV | 84 |
XLVI | 89 |
XLVIII | 91 |
LI | 92 |
LII | 93 |
LIV | 102 |
LV | 105 |
LVIII | 107 |
LXI | 111 |
LXII | 114 |
LXIII | 117 |
LXIV | 119 |
LXVII | 121 |
LXXI | 122 |
LXXII | 124 |
LXXIII | 128 |
LXXIV | 132 |
LXXV | 133 |
LXXVII | 134 |
LXXX | 135 |
LXXXII | 136 |
LXXXIII | 139 |
LXXXIV | 144 |
LXXXV | 146 |
LXXXVI | 149 |
LXXXVII | 151 |
LXXXVIII | 152 |
XC | 154 |
XCIII | 155 |
XCIV | 160 |
XCV | 163 |
XCVI | 165 |
XCVII | 167 |
XCVIII | 170 |
XCIX | 173 |
CII | 175 |
CV | 176 |
CVI | 178 |
CVII | 179 |
CVIII | 182 |
CIX | 186 |
CX | 190 |
CXII | 191 |
CXV | 193 |
CXVI | 194 |
CXVII | 196 |
CXX | 197 |
CXXII | 198 |
CXXIII | 200 |
CXXIV | 207 |
CXXV | 210 |
CXXVI | 212 |
CXXVII | 213 |
CXXIX | 215 |
CXXXII | 218 |
CXXXIII | 219 |
CXXXIV | 226 |
CXXXV | 230 |
CXXXVI | 231 |
CXXXVII | 233 |
CXL | 237 |
CXLI | 238 |
CXLII | 239 |
CXLIII | 240 |
CXLIV | 242 |
CXLV | 245 |
CXLVI | 249 |
CXLVII | 250 |
CXLVIII | 252 |
CXLIX | 253 |
CL | 255 |
CLI | 257 |
CLII | 260 |
CLIV | 261 |
CLVI | 262 |
CLVII | 263 |
CLVIII | 265 |
CLIX | 266 |
CLX | 268 |
CLXI | 272 |
CLXIII | 274 |
CLXVI | 275 |
CLXVII | 276 |
CLXVIII | 283 |
CLXIX | 286 |
CLXX | 287 |
CLXXI | 288 |
CLXXII | 289 |
CLXXIV | 290 |
CLXXXIX | 312 |
CXC | 313 |
CXCI | 314 |
CXCIII | 315 |
CXCIV | 316 |
CXCV | 317 |
CXCVI | 321 |
CXCVIII | 325 |
CXCIX | 326 |
CCI | 327 |
CCIV | 328 |
CCV | 329 |
CCVII | 337 |
CCVIII | 339 |
CCIX | 341 |
CCX | 342 |
CCXI | 343 |
CCXII | 344 |
CCXIII | 345 |
CCXIV | 346 |
CCXV | 347 |
CCXVI | 351 |
CCXVII | 357 |
CCXIX | 359 |
CCXX | 360 |
CCXXI | 361 |
CCXXII | 362 |
CCXXVI | 363 |
CCXXVII | 365 |
CCXXIX | 368 |
CCXXX | 371 |
CCXXXI | 372 |
CCXXXIII | 373 |
CCXXXVI | 375 |
CCXXXVIII | 376 |
CCXXXIX | 380 |
CCXL | 381 |
CCXLII | 386 |
CCXLIII | 389 |
CCXLIV | 392 |
CCXLV | 395 |
CCXLVI | 396 |
CCXLVII | 397 |
CCXLVIII | 398 |
CCLI | 399 |
CCLII | 400 |
CCLIII | 402 |
CCLIV | 409 |
CCLV | 412 |
CCLVIII | 414 |
CCLXI | 415 |
CCLXII | 416 |
CCLXV | 417 |
CCLXVI | 419 |
CCLXVIII | 420 |
CCLXIX | 422 |
CCLXX | 423 |
CCLXXI | 424 |
CCLXXIII | 425 |
CCLXXV | 426 |
CCLXXVIII | 427 |
CCLXXIX | 429 |
CCLXXX | 430 |
CCLXXXI | 432 |
CCLXXXII | 437 |
CCLXXXIV | 438 |
CCLXXXV | 439 |
CCLXXXVII | 440 |
CCLXXXVIII | 441 |
CCLXXXIX | 446 |
CCXC | 448 |
CCXCI | 452 |
CCXCII | 453 |
CCXCIV | 455 |
CCXCVII | 456 |
CCXCVIII | 461 |
CCXCIX | 465 |
CCC | 471 |
CCCII | 473 |
CCCV | 475 |
CCCVI | 477 |
CCCVII | 478 |
CCCIX | 480 |
CCCX | 482 |
CCCXI | 485 |
CCCXII | 486 |
CCCXIII | 487 |
CCCXIV | 488 |
CCCXVI | 489 |
CCCXIX | 491 |
CCCXX | 493 |
CCCXXII | 495 |
CCCXXIII | 496 |
CCCXXIV | 498 |
CCCXXVI | 502 |
CCCXXVII | 503 |
CCCXXVIII | 509 |
CCCXXXI | 511 |
CCCXXXIV | 513 |
CCCXXXV | 515 |
CCCXXXVI | 517 |
CCCXXXVII | 520 |
CCCXXXVIII | 522 |
CCCXXXIX | 524 |
CCCXL | 526 |
CCCXLI | 528 |
CCCXLII | 530 |
CCCXLIII | 531 |
532 | |
533 | |
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多く使われている語句
activity adsorbed adsorption alloys analysis atoms band bonding Boudart carbide catalyst carbide phase carbides and nitrides carbon carbonitride Catal catalyst Chem chemical chemisorption cm¹ combustion composition compounds conversion decomposition density deposition desorption diffraction diffusion electron energy experimental Fermi energy Fermi surfaces films formation H₂ heating hydrocarbons hydrogen hydrogenolysis increase isomerization lattice magnetic magnetite materials mechanism metal nitrides Mo₂C Mo₂N molybdenum MoO3 N₂ NEXAFS nitrogen nitrogen pressure nonmetal observed obtained orbitals oxide oxycarbide oxygen parameters particle peak Phys plane powder precursor properties pyrolysis ratio reaction reactive S.T. Oyama samples shown in Figure shows Single Crystal spectra sputtering stoichiometry structure substrate surface area surface shifted synthesis Table ternary nitrides thermal titanium titanium nitride transition metal transition metal carbides tungsten carbide values vanadium carbide vaporization W₂C X-ray X-ray diffraction