Krueger A. Carbon materials and nanotechnology. - Weinheim: Wiley-VCH, 2010. - xiv, 475 p.: ill. - Incl. bibl. ref and index. - ISBN 978-3-527-31803-2  Место хранения:   027 | Институт химии твердого тела и механохимии CO РАН | Новосибирск

Оглавление / Contents

Preface ...................................................... XIII 1 Carbon-Element of Many Faces ................................. 7 1.1 History ................................................. 1 1.2 Structure and Bonding ................................... 6 1.2.1 Graphite and Its Structure ....................... 7 1.2.2 Diamond and Its Structure ........................ 9 1.2.3 Structure of Other Carbon Allotropes ............ 10 1.2.4 Liquid and Gaseous Carbon ....................... 13 1.3 Occurrence and Production .............................. 13 1.3.1 Graphite and Related Materials .................. 13 1.3.2 Diamond ......................................... 17 1.4 Physical Properties .................................... 20 1.4.1 Graphite and Related Materials .................. 21 1.4.2 Diamond ......................................... 23 1.5 Chemical Properties .................................... 24 1.5.1 Graphite and Related Materials .................. 26 1.5.2 Diamond ......................................... 29 1.6 Application and Perspectives ........................... 29 1.6.1 Graphite and Related Materials .................. 30 1.6.2 Diamond ......................................... 30 1.6.3 Other Carbon Materials .......................... 30 1.7 Summary ................................................ 31 2 Fullerenes-Cages Made from Carbon ........................... 33 2.1 History-The Discovery of New Carbon Allotropes ......... 33 2.1.1 Theoretical Predictions ......................... 33 2.1.2 Experimental Proof .............................. 34 2.2 Structure and Bonding .................................. 36 2.2.1 Nomenclature .................................... 36 2.2.2 The Structure of C60 ............................ 37 2.2.3 Structure of Higher Fullerenes and Growth Mechanisms ...................................... 40 2.2.4 Structure of Smaller Carbon Clusters ............ 45 2.2.5 Structure of Heterofullerenes ................... 46 2.3 Occurrence, Production, and Purification ............... 47 2.3.1 Fullerene Preparation by Pyrolysis of Hydrocarbons .................................... 48 2.3.2 Partial Combustion of Hydrocarbons .............. 49 2.3.3 Arc Discharge Methods ........................... 50 2.3.4 Production by Resistive Heating ................. 51 2.3.5 Rational Syntheses .............................. 52 2.3.6 Enrichment and Purification ..................... 54 2.3.7 Preparation of Heterofullerenes ................. 56 2.4 Physical Properties .................................... 57 2.4.1 Properties of C60 and C70 ........................ 57 2.4.1.1 Solubility ............................. 57 2.4.1.2 Spectroscopic Properties ............... 59 2.4.1.3 Thermodynamic Properties ............... 63 2.4.1.4 Solid C60 .............................. 64 2.4.2 Properties of Higher Fullerenes ................. 65 2.5 Chemical Properties .................................... 66 2.5.1 General Considerations on Fullerene Chemistry ... 67 2.5.1.1 Typical Reactions of Fullerenes ........ 67 2.5.1.2 Regiochemistry of Additions to Fullerenes ............................. 68 2.5.1.3 Secondary and Multiple Additions ....... 68 2.5.2 Electro-and Redox Chemistry of Fullerenes ....... 72 2.5.2.1 Electrochemistry of Fullerenes ......... 72 2.5.2.2 Reductions of Fullerenes ............... 74 2.5.2.3 Oxidations of Fullerenes ............... 76 2.5.3 Inorganic Chemistry of Fullerenes ............... 77 2.5.4 Endohedral Complexes of Fullerenes .............. 82 2.5.4.1 Metallofullerenes ...................... 82 2.5.4.2 Endohedral Compounds with Nonmetallic Elements ............................... 86 2.5.5 Organic Chemistry of Fullerenes ................. 87 2.5.5.1 Hydrogenation and Halogenation ......... 87 2.5.5.2 Nucleophilic Addition to Fullerenes .... 93 2.5.5.3 Cycloadditions ......................... 98 2.5.5.4 Photochemistry ........................ 103 2.5.5.5 Radical Chemistry of Fullerenes ....... 105 2.5.5.6 Fullerenes in Polymeric Materials and on Surfaces ....................... 107 2.5.6 Supramolecular Chemistry of Fullerenes ......... 112 2.5.7 Polymeric Fullerenes and Behavior under High Pressure ....................................... 116 2.5.8 Reactivity of Further Fullerenes ............... 117 2.6 Applications and Perspectives ......................... 118 2.7 Summary ............................................... 121 3 Carbon Nanotubes ........................................... 723 3.2 The Structure of Carbon Nanotubes ..................... 126 3.2.1 Nomenclature ................................... 126 3.2.2 Structure of Single-Walled Carbon Nanotubes .... 127 3.2.3 Structure of Multiwalled Carbon Nanotubes ...... 135 3.3 Production and Purification of Carbon Nanotubes ....... 140 3.3.1 Production of Single-Walled Carbon Nanotubes ... 140 3.3.1.1 Arc Discharge Methods ................. 140 3.3.1.2 Laser Ablation ........................ 142 3.3.1.3 The HiPCo Process ..................... 144 3.3.1.4 Pyrolysis ............................. 146 3.3.1.5 Chemical Vapor Deposition (CVD) ....... 147 3.3.2 Production of Multiwalled Carbon Nanotubes ..... 150 3.3.2.1 Arc Discharge Methods ................. 150 3.3.2.2 Laser Ablation ........................ 153 3.3.2.3 Chemical Vapor Deposition (CVD) ....... 254 3.3.2.4 Decomposition of Hydrocarbons- Pyrolytic Methods ..................... 156 3.3.2.5 Production of Double-Walled Carbon Nanotubes ............................. 158 3.3.3 Strategies for the Rational Synthesis of Carbon Nanotubes ............................... 159 3.3.4 Structure and Production of Further Tubular Carbon Materials .............................. 163 3.3.4.1 Bamboo-Like Carbon Nanotubes .......... 163 3.3.4.2 Cup-Stacked Carbon Nanotubes .......... 164 3.3.4.3 Carbon Nanohorns (SWNH) ............... 165 3.3.4.4 Helical Carbon Nanotubes (hMWNT) ...... 166 3.3.5 Arrays of Carbon Nanotubes ..................... 168 3.3.6 Purification and Separation of Carbon Nanotubes ...................................... 171 3.3.6.1 Removal of Impurities from Carbon Nanotube Materials .................... 171 3.3.6.2 Evaluating the Purity of Carbon Nanotube Materials .................... 173 3.3.6.3 Cutting of Carbon Nanotubes ........... 176 3.3.6.4 Separation of Carbon Nanotubes by their Properties ...................... 177 3.3.7 The Growth Mechanism of Carbon Nanotubes ....... 180 3.3.7.1 Arc Discharge Methods ................. 180 3.3.7.2 CVD-Methods ........................... 185 3.4 Physical Properties ................................... 186 3.4.1 General Considerations ......................... 186 3.4.2 Solubility and Debundling of Carbon Nanotubes ...................................... 187 3.4.3 Mechanical Properties of Carbon Nanotubes ...... 190 3.4.4 Electronic Properties of Carbon Nanotubes ...... 194 3.4.4.1 Band Structure and Density of States of Carbon Nanotubes ................... 194 3.4.4.2 The Mechanism of Electric Conduction in Carbon Nanotubes ................... 202 3.4.4.3 Field Emission from Carbon Nanotubes ............................. 204 3.4.5 Spectroscopic Properties of Carbon Nanotubes ... 206 3.4.5.1 Raman and Infrared Spectroscopy of Carbon Nanotubes ...................... 206 3.4.5.2 Absorption and Emission Spectroscopy of Carbon Nanotubes ................... 209 3.4.5.3 ESR-Spectroscopic Properties of Carbon Nanotubes ...................... 212 3.4.5.4 Further Spectroscopic Properties of Carbon Nanotubes ...................... 213 3.4.6 Thermal Properties of Carbon Nanotubes ......... 216 3.4.6.1 Specific Heat Capacity of Carbon Nanotubes ............................. 216 3.4.6.2 Heat Conductivity of Carbon Nanotubes ............................. 216 3.5 Chemical Properties ................................... 217 3.5.1 General Considerations on the Reactivity of Carbon Nanotubes ............................... 217 3.5.2 Redox Chemistry of Carbon Nanotubes ............ 220 3.5.3 Functionalization of the Caps or Open Ends of Carbon Nanotubes ............................... 224 3.5.4 Side Wall Functionalization of Carbon Nanotubes ...................................... 226 3.5.4.1 Covalent Attachment of the Functional Groups ..................... 226 3.5.4.2 Noncovalent Attachment of Functional Units ................................. 240 3.5.5 Composite Materials with Carbon Nanotubes ...... 246 3.5.5.1 Composites with Covalent Bonding of the Polymer ........................... 248 3.5.5.2 Composites with Noncovalent Attachment of the Polymer ............. 249 3.5.5.3 Nanotube Composites with Different Polymers .............................. 250 3.5.5.4 Nanotube Composites with Other Materials ............................. 254 3.5.6 Intercalation Compounds and Endohedral Functionalization of Carbon Nanotubes .......... 255 3.5.7 Supramolecular Chemistry of Carbon Nanotubes ... 263 3.6 Applications and Perspectives ......................... 266 3.6.1 Electronic Applications of Carbon Nanotubes .... 267 3.6.1.1 Nanotubes as Tips in Atomic Force Microscopy ............................ 267 3.6.1.2 Field Emission ........................ 268 3.6.1.3 Field Effect Transistors .............. 269 3.6.2 Sensor Applications of Carbon Nanotubes ........ 271 3.6.2.1 Physical Sensors ...................... 271 3.6.2.2 Chemical Sensors ...................... 271 3.6.3 Biological Applications of Carbon Nanotubes .... 273 3.6.3.1 Recognition of DNA Sequences .......... 273 3.6.3.2 Delivery of Drugs and Vaccines; Gene Therapy ............................... 274 3.6.4 Materials with Carbon Nanotubes ................ 275 3.6.5 Further Applications of Carbon Nanotubes ....... 277 3.6.5.1 Heterogeneous Catalysis ............... 277 3.6.5.2 Hydrogen Storage in Carbon Nanotubes ............................. 278 3.6.5.3 Carbon Nanotubes as Material in Electrical Engineering ................ 279 3.7 Summary .......................................... 280 4 Carbon Onions and Related Materials ........................ 283 4.1 Introduction .......................................... 283 4.2 Structure and Occurrence .............................. 284 4.2.1 Structure of Carbon Onions ..................... 284 4.2.2 Structure of Faceted Carbon Nanoparticles ...... 289 4.2.3 Occurrence of Carbon Onions and Nanoparticles .................................. 290 4.3 Preparation and Mechanisms of Formation ............... 291 4.3.1 Arc Discharge Methods .......................... 291 4.3.2 CVD-Methods .................................... 293 4.3.3 Preparation of Carbon Onions by Ion Bombardment .................................... 294 4.3.4 Chemical Methods ............................... 296 4.3.5 Transformations of Other Carbon Species ........ 298 4.3.5.1 Thermal Transformations of Soot-Like Structures ............................ 298 4.3.5.2 Irradiation of Soot-Like and Other sp2-Hybridized Carbons ................ 300 4.3.5.3 Thermal Transformation of Diamond ..... 303 4.3.5.4 Irradiation of Diamond Materials ...... 304 4.3.6 Further Methods to Produce Carbon Onions ....... 305 4.3.7 Growth Mechanisms of Carbon Onions ............. 307 4.3.7.1 Growth Mechanisms of Carbon Onions Obtained by Electron Irradiation ...... 307 4.3.7.2 Growth Mechanisms of Carbon Onions Obtained by Thermal Treatment ......... 309 4.4 Physical Properties ................................... 313 4.4.1 Spectroscopic Properties ....................... 313 4.4.1.1 IR-and Raman Spectroscopy ............. 314 4.4.1.2 X-Ray Diffraction ..................... 315 4.4.1.3 Absorption Spectra of Carbon Onions and Related Materials ................. 316 4.4.1.4 EEL-Spectra of Carbon Onions and Related Materials ..................... 317 4.4.1.5 Further Spectroscopic Properties of Carbon Onions and Related Materials ... 318 4.4.2 Thermodynamic Properties ....................... 319 4.4.3 Electronic Properties .......................... 320 4.5 Chemical Properties ................................... 321 4.5.1 Reactivity and Functionalization of Carbon Onions and Carbon Nanoparticles ................ 321 4.5.2 Conversion into Other Forms of Carbon .......... 323 4.6 Applications and Perspectives ......................... 324 4.6.1 Tribological Applications ...................... 325 4.6.2 Applications in Catalysis ...................... 326 4.7 Summary ............................................... 327 5 Nanodiamond ................................................ 329 5.1 Introduction .......................................... 329 5.1.1 Historical Background to the Discovery of Nanodiamonds ................................... 329 5.1.2 Natural Occurrence of Nanodiamond .............. 331 5.2 Structure of Nanodiamonds ............................. 332 5.2.1 The Lattice Structure of Nanodiamond ........... 332 5.2.2 The Surface Structure of Nanodiamond ........... 333 5.2.3 Diamond or Graphite? Stability in the Nanometer Range ................................ 336 5.2.4 Agglomeration of Nanodiamond ................... 338 5.3 Preparation of Nanodiamond ............................ 340 5.3.1 Detonation Synthesis ........................... 340 5.3.2 Shock Syntheses of Nanodiamond ................. 344 5.3.3 Further Methods of Nanodiamond Preparation ..... 346 5.3.4 Deagglomeration and Purification ............... 349 5.4 Physical Properties ................................... 351 5.4.1 Spectroscopic Properties of Nanodiamond ........ 351 5.4.1.1 Raman Spectroscopy .................... 351 5.4.1.2 Infrared Spectroscopy ................. 354 5.4.1.3 X-Ray Diffraction and EELS ............ 356 5.4.1.4 Absorption and Photoluminescence Spectroscopy .......................... 358 5.4.1.5 Further Spectroscopic Properties ...... 360 5.4.2 Electronic Properties of Nanodiamond ........... 362 5.4.3 Mechanical Properties of Nanodiamond ........... 365 5.5 Chemical Properties ................................... 367 5.5.1 Reactivity of Nanodiamond ...................... 367 5.5.2 Surface Functionalization of Nanodiamond ....... 370 5.5.2.1 Hydrogenation ......................... 370 5.5.2.2 Halogenation .......................... 371 5.5.2.3 Oxidation of Nanodiamond .............. 373 5.5.2.4 Reduction of Nanodiamond .............. 374 5.5.2.5 Silanization of Nanodiamond ........... 374 5.5.2.6 Alkylation and Arylation of Nanodiamond ........................... 375 5.5.2.7 Reactions on sp2-Hybridized Domains on the Nanodiamond Surface ............ 376 5.5.2.8 Further Functionalization of Nanodiamond ........................... 377 5.5.2.9 Composites and Noncovalent Interactions with Nanodiamond ......... 380 5.5.3 Transformations of Nanodiamond into Other Forms of Carbon ................................ 382 5.6 Applications and Perspectives ......................... 382 5.6.1 Mechanical Applications ........................ 382 5.6.2 Thermal Applications ........................... 384 5.6.3 Applications as Sorbent ........................ 384 5.6.4 Biological Applications ........................ 385 5.6.5 Further Applications and Perspectives .......... 385 5.7 Summary ............................................... 386 6 Diamond Films .............................................. 389 6.1 Discovery and History of Diamond Films ................ 389 6.2 Structure of Diamond Films ............................ 391 6.2.1 General Considerations on the Structure of Diamond Films .................................. 391 6.2.2 The Surface Structure of Diamond Films ......... 394 6.2.2.1 Structure of the (111)-Plane .......... 394 6.2.2.2 Structure of the (100)-Plane .......... 396 6.2.2.3 Structure of the (110)-Plane .......... 398 6.2.3 Defects and Doping of Diamond Films ............ 399 6.2.4 Structure of Further Diamond-Like Film Materials ...................................... 402 6.3 Preparation of Diamond Films .......................... 403 6.3.1 CVD Methods for the Preparation of Diamond Films .......................................... 403 6.3.1.1 Hot Filament CVD ...................... 404 6.3.1.2 CVD at Simultaneous Electric Discharge ............................. 405 6.3.1.3 Microwave CVD ......................... 405 6.3.2 Growth Mechanism of Diamond Films .............. 407 6.3.3 Preparation of UNCD ............................ 410 6.4 Physical Properties of Diamond Films .................. 413 6.4.1 Spectroscopic Properties of Diamond Films ...... 413 6.4.1.1 Infrared and Raman Spectroscopy ....... 413 6.4.1.2 Optical Properties of Diamond Films ... 416 6.4.1.3 XRD, XPS, and EELS of Diamond Films ... 418 6.4.2 Electronic Properties of Diamond Films ......... 420 6.4.2.1 Electric Conductivity of Diamond Films ................................. 421 6.4.2.2 Field Emission from Diamond Films ..... 423 6.4.3 Mechanical Properties of Diamond Films ......... 424 6.4.4 Thermal Properties of Diamond Films ............ 428 6.5 Chemical Properties of Diamond Films .................. 428 6.5.1 Considerations on the Reactivity of Diamond Films .......................................... 428 6.5.2 Covalent Functionalization of Diamond Films .... 430 6.5.2.1 Hydrogenation of Diamond Films ........ 430 6.5.2.2 Halogenation of Diamond Films ......... 430 6.5.2.3 Oxidation of Diamond Surfaces ......... 432 6.5.2.4 Radical and Photochemical Reactions on Diamond Surfaces ................... 433 6.5.2.5 Cycloadditions on Diamond Surfaces .... 436 6.5.2.6 Further Reactions on Functionalized Diamond Films ......................... 438 6.5.3 Noncovalent Functionalization of Diamond Films .......................................... 440 6.5.4 Electrochemistry of Diamond Films .............. 440 6.6 Applications and Perspectives ......................... 443 6.6.1 Mechanical Applications ........................ 443 6.6.2 Electronic Applications ........................ 444 6.6.3 Chemical, Electrochemical, and Biological Applications ................................... 446 6.6.4 Further Applications of Diamond Films .......... 447 6.7 Summary ............................................... 448 7 Epilog ..................................................... 457 8 Further Readings and Figure References ..................... 455 8.1 Further Readings ...................................... 455 Carbon in General ..................................... 455 Fullerenes ............................................ 455 Carbon Nanotubes ...................................... 456 Carbon Onions ......................................... 457 Diamond Films ......................................... 457 Nanodiamond ........................................... 458 8.2 Figure References ..................................... 458 Index ......................................................... 467 Paper Cutout DIY Kit .......................................... 475