Carbon Molecules and MaterialsRalph Setton, Patrick Bernier, Serge Lefrant CRC Press, 11 apr 2002 - 512 pagina's The unexpected recent discovery and synthesis of a new form of elemental carbon has initiated an abundance of papers on all aspects of the chemistry and physics of the carbon family. Carbon Molecules and Materials takes stock of the current understanding of these various solid forms and, more particularly, of the diamond, graphite and fullerenes. After a historical background on the main properties of the element and on the latest discoveries in the field of fullerene, the chapters review the chemical and physical aspects of the allotropic forms. It describes the various properties such as thermodynamic, chemical, structural, electronic, electrical, optical and magnetic, and discusses current and potential applications. Written by scientists active in physical and chemical research on the various forms of carbon and closely related fields, the book presents a wealth of information on data and results for students and researchers interested in materials science and in the applications of advanced materials. |
Inhoudsopgave
III | 1 |
VI | 2 |
VII | 4 |
IX | 5 |
X | 6 |
XII | 9 |
XIII | 16 |
XIV | 17 |
CXIV | 246 |
CXV | 249 |
CXVII | 250 |
CXIX | 252 |
CXX | 254 |
CXXI | 257 |
CXXII | 259 |
CXXIII | 260 |
XV | 21 |
XVI | 26 |
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XVIII | 31 |
XIX | 32 |
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XXVI | 51 |
XXIX | 56 |
XXX | 59 |
XXXII | 63 |
XXXIII | 68 |
XXXIV | 70 |
XXXV | 71 |
XXXVI | 74 |
XXXVII | 79 |
XXXVIII | 83 |
XL | 85 |
XLII | 86 |
XLIV | 87 |
XLV | 88 |
XLVI | 90 |
XLVII | 93 |
XLVIII | 95 |
XLIX | 99 |
L | 100 |
LI | 101 |
LII | 102 |
LIV | 103 |
LV | 104 |
LVI | 105 |
LVIII | 106 |
LX | 109 |
LXI | 110 |
LXIII | 112 |
LXV | 120 |
LXVII | 127 |
LXIX | 128 |
LXX | 137 |
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LXXV | 155 |
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LXXVIII | 174 |
LXXIX | 175 |
LXXX | 179 |
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LXXXV | 186 |
LXXXVII | 190 |
LXXXVIII | 196 |
LXXXIX | 198 |
XC | 201 |
XCIII | 204 |
XCIV | 210 |
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C | 225 |
CIII | 226 |
CIV | 230 |
CV | 234 |
CVI | 237 |
CIX | 239 |
CX | 240 |
CXII | 241 |
CXIII | 245 |
CXXIV | 268 |
CXXVI | 276 |
CXXVII | 277 |
CXXIX | 281 |
CXXX | 286 |
CXXXI | 289 |
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CXXXIV | 292 |
CXXXV | 294 |
CXXXVI | 299 |
CXXXVII | 300 |
CXXXVIII | 306 |
CXL | 314 |
CXLI | 318 |
CXLII | 325 |
CXLIV | 326 |
CXLV | 328 |
CXLVI | 332 |
CXLVII | 338 |
CXLIX | 340 |
CL | 343 |
CLIII | 345 |
CLIV | 358 |
CLV | 365 |
CLVII | 366 |
CLVIII | 369 |
CLIX | 370 |
CLX | 371 |
CLXI | 375 |
CLXII | 389 |
CLXIV | 392 |
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CLXVIII | 404 |
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CLXXI | 413 |
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CLXXVI | 420 |
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CLXXIX | 426 |
CLXXX | 427 |
CLXXXI | 431 |
CLXXXIV | 433 |
CLXXXV | 435 |
CLXXXVI | 436 |
CLXXXVII | 438 |
CLXXXVIII | 439 |
CXC | 440 |
CXCI | 441 |
CXCII | 442 |
CXCIV | 445 |
CXCVI | 446 |
CXCVIII | 447 |
CXCIX | 448 |
CC | 449 |
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CCII | 457 |
CCIV | 458 |
CCVI | 459 |
CCVIII | 460 |
CCIX | 461 |
CCX | 462 |
CCXII | 464 |
CCXIII | 469 |
475 | |
Overige edities - Alles bekijken
Carbon Molecules and Materials Ralph Setton,Patrick Bernier,Serge Lefrant Gedeeltelijke weergave - 2002 |
Veelvoorkomende woorden en zinsdelen
absorption adsorption allotropic anisotropic anisotropic domains axis band structure beam bonds Brillouin zone BSUs c-BN C60 molecule calculated carbon fibres carbonisation characteristics Chem chemical chondrules cm¹ corresponding coupling crystal cubic density diagram diamond diffraction pattern doping Dresselhaus Dresselhaus M.S. Ebbesen Eklund electronic structure energy Fermi level Figure films formation frequency fullerenes fullerite GICs graphene layers graphite graphite intercalation compounds graphitisation hexagonal hybridisation hydrogen interactions intercalation compounds interlayer interstellar interstellar medium isotopic isotopic composition kerogens Kroto Lannin lattice Lett materials metal metastable meteorites method modes molecular molecules nanotubes Nature Oberlin obtained optical orbitals orientation parameters phase phonons Phys plane polyaromatic precursor present pressure properties protosolar nebula Raman ratio reaction reciprocal rhombohedral Saito Setton shown in Fig solar solid sp² sp³ species spectra stacking superconducting surface symmetry temperature thermal transfer integrals transition values yield