Knowledge

45:- which make them possibly suitable for clothing. They are excellent (10 siemens per metre) electrical conductors, are 15 times stronger than the strongest 30:(CNTs), colossal carbon tubes have much larger diameters ranging between 40 and 100 μm. Their walls have a corrugated structure with abundant pores, as in 252: 129: 76: 220: 192: 245: 57: 225: 575: 570: 37: 639: 238: 50: 618: 644: 107: 384: 42: 444: 168: 271: 31: 322: 261: 144: 8: 148: 359: 341: 160: 69: 598: 528: 434: 156: 152: 65: 483: 439: 405: 347: 73: 58: 27: 196: 580: 389: 353: 130:"Strong and Ductile Colossal Carbon Tubes with Walls of Rectangular Macropores" 77: 633: 613: 467: 366: 332: 84: 221: 603: 164: 46: 565: 544: 287: 226: 230: 499: 317: 38: 34:, where the solid membranes have a graphite-like layered structure. 608: 449: 312: 306: 560: 281: 54: 23: 83: 127: 128:Peng, H.; Chen D.; Huang J.Y.; et al. (2008). 102: 100: 80:if retained in a fabricated macroscale structure. 631: 97: 246: 253: 239: 193:"The Space Elevator Feasibility Condition" 108:"Carbon nanotubes, but without the 'nano'" 260: 632: 72:(tensile strength per density), and a 234: 13: 14: 656: 214: 288:Lonsdaleite (hexagonal diamond) 185: 157:10.1103/PhysRevLett.101.145501 121: 1: 90: 22:(CCTs) are a tubular form of 7: 49:(T1000), have 30 times the 10: 661: 619:Aggregated diamond nanorod 589: 519: 458: 425: 417:(cyclo[18]carbon) 375: 296: 268: 401:(cyclo[6]carbon) 385:Linear acetylenic carbon 445:Carbide-derived carbon 327:(buckminsterfullerene) 16:Tubular form of carbon 68:of 7 GPa, and a high 32:corrugated fiberboard 26:. In contrast to the 20:Colossal carbon tubes 640:Allotropes of carbon 262:Allotropes of carbon 149:2008PhRvL.101n5501P 540:(cyclopropatriene) 521:hypothetical forms 342:Fullerene whiskers 627: 626: 495:(diatomic carbon) 427:mixed sp/sp forms 70:specific strength 652: 645:Carbon nanotubes 599:Activated carbon 555: 554: 553: 539: 538: 537: 510: 509: 508: 494: 493: 492: 478: 477: 476: 435:Amorphous carbon 416: 415: 414: 400: 399: 398: 255: 248: 241: 232: 231: 208: 207: 205: 204: 195:. Archived from 189: 183: 182: 180: 179: 173: 167:. Archived from 134: 125: 119: 118: 116: 115: 104: 66:tensile strength 59:carbon nanofoams 28:carbon nanotubes 660: 659: 655: 654: 653: 651: 650: 649: 630: 629: 628: 623: 585: 576:Metallic carbon 552: 549: 548: 547: 545: 536: 533: 532: 531: 529: 515: 507: 504: 503: 502: 500: 491: 488: 487: 486: 484: 479:(atomic carbon) 475: 472: 471: 470: 468: 454: 440:Carbon nanofoam 421: 413: 410: 409: 408: 406: 397: 394: 393: 392: 390: 371: 336: 326: 292: 282:Diamond (cubic) 264: 259: 217: 212: 211: 202: 200: 191: 190: 186: 177: 175: 171: 137:Phys. Rev. Lett 132: 126: 122: 113: 111: 106: 105: 98: 93: 74:breaking length 17: 12: 11: 5: 658: 648: 647: 642: 625: 624: 622: 621: 616: 611: 606: 601: 595: 593: 587: 586: 584: 583: 581:Penta-graphene 578: 573: 568: 563: 558: 550: 542: 534: 525: 523: 517: 516: 514: 513: 505: 497: 489: 481: 473: 464: 462: 456: 455: 453: 452: 447: 442: 437: 431: 429: 423: 422: 420: 419: 411: 403: 395: 387: 381: 379: 373: 372: 370: 369: 364: 334: 324: 315: 310: 302: 300: 294: 293: 291: 290: 285: 277: 275: 266: 265: 258: 257: 250: 243: 235: 229: 228: 223: 216: 215:External links 213: 210: 209: 184: 143:(14): 145501. 120: 95: 94: 92: 89: 85:semiconductors 78:space elevator 15: 9: 6: 4: 3: 2: 657: 646: 643: 641: 638: 637: 635: 620: 617: 615: 612: 610: 607: 605: 602: 600: 597: 596: 594: 592: 588: 582: 579: 577: 574: 572: 569: 567: 564: 562: 559: 557: 556:(prismane C8) 543: 541: 527: 526: 524: 522: 518: 512: 498: 496: 482: 480: 466: 465: 463: 461: 457: 451: 448: 446: 443: 441: 438: 436: 433: 432: 430: 428: 424: 418: 404: 402: 388: 386: 383: 382: 380: 378: 374: 368: 367:Glassy carbon 365: 362: 361: 356: 355: 350: 349: 344: 343: 338: 337: 329: 328: 319: 316: 314: 311: 309: 308: 304: 303: 301: 299: 295: 289: 286: 284: 283: 279: 278: 276: 274: 273: 267: 263: 256: 251: 249: 244: 242: 237: 236: 233: 227: 224: 222: 219: 218: 199:on 2013-06-24 198: 194: 188: 174:on 2016-08-09 170: 166: 162: 158: 154: 150: 146: 142: 138: 131: 124: 109: 103: 101: 96: 88: 86: 81: 79: 75: 71: 67: 62: 60: 56: 52: 48: 44: 40: 35: 33: 29: 25: 21: 614:Carbon fiber 604:Carbon black 590: 571:Cubic carbon 520: 459: 426: 376: 358: 352: 346: 340: 331: 321: 320:, including 305: 297: 280: 269: 201:. Retrieved 197:the original 187: 176:. Retrieved 169:the original 140: 136: 123: 112:. Retrieved 82: 64:CCTs have a 63: 47:carbon fiber 43:conductivity 36: 19: 18: 566:Haeckelites 511:(tricarbon) 460:other forms 360:Nanoscrolls 634:Categories 318:Fullerenes 203:2009-08-03 178:2009-07-12 114:2017-11-12 110:. Aug 2008 91:References 348:Nanotubes 41:and high 39:ductility 609:Charcoal 450:Q-carbon 377:sp forms 354:Nanobuds 313:Graphene 307:Graphite 298:sp forms 165:18851539 51:tenacity 591:related 561:Chaoite 145:Bibcode 163:  55:Kevlar 24:carbon 272:forms 172:(PDF) 133:(PDF) 161:PMID 270:sp 153:doi 141:101 53:of 636:: 412:18 357:, 351:, 345:, 339:, 335:70 330:, 325:60 159:. 151:. 139:. 135:. 99:^ 87:. 61:. 551:6 546:C 535:3 530:C 506:3 501:C 490:2 485:C 474:1 469:C 407:C 396:6 391:C 363:) 333:C 323:C 254:e 247:t 240:v 206:. 181:. 155:: 147:: 117:.