Catalytic growth of single-walled manotubes by laser vaporization T Guo, P Nikolaev, A Thess, DT Colbert, RE Smalley Chemical physics letters 243 (1-2), 49-54, 1995 | 2909 | 1995 |
Fullerenes with metals inside Y Chai, T Guo, C Jin, RE Haufler, LPF Chibante, J Fure, L Wang, ... The Journal of Physical Chemistry 95 (20), 7564-7568, 1991 | 1668 | 1991 |
Self-assembly of tubular fullerenes T Guo, P Nikolaev, AG Rinzler, D Tomanek, DT Colbert, RE Smalley The Journal of Physical Chemistry 99 (27), 10694-10697, 1995 | 909 | 1995 |
Picosecond–milliångström lattice dynamics measured by ultrafast X-ray diffraction C Rose-Petruck, R Jimenez, T Guo, A Cavalleri, CW Siders, F Rksi, ... Nature 398 (6725), 310-312, 1999 | 757 | 1999 |
Detection of nonthermal melting by ultrafast X-ray diffraction CW Siders, A Cavalleri, K Sokolowski-Tinten, C Toth, T Guo, M Kammler, ... Science 286 (5443), 1340-1342, 1999 | 742 | 1999 |
Uranium stabilization of C28: a tetravalent fullerene T Guo, MD Diener, Y Chai, MJ Alford, RE Haufler, SM McClure, T Ohno, ... Science 257 (5077), 1661-1664, 1992 | 576 | 1992 |
Methods for producing composites of single-wall carbon nanotubes and compositions thereof RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 7,105,596, 2006 | 574* | 2006 |
Doping bucky: formation and properties of boron-doped buckminsterfullerene T Guo, C Jin, RE Smalley The Journal of Physical Chemistry 95 (13), 4948-4950, 1991 | 543 | 1991 |
Generation of 18-fs, multiterawatt pulses by regenerative pulse shaping and chirped-pulse amplification CPJ Barty, T Guo, C Le Blanc, F Raksi, C Rose-Petruck, J Squier, ... Optics letters 21 (9), 668-670, 1996 | 339 | 1996 |
Method of making ropes of single-wall carbon nanotubes RE Smalley, DT Colbert, T Guo, AG Rinzler, P Nikolaev, A Thess US Patent 6,183,714, 2001 | 330 | 2001 |
XPS probes of carbon-caged metals JH Weaver, Y Chai, GH Kroll, C Jin, TR Ohno, RE Haufler, T Guo, ... Chemical physics letters 190 (5), 460-464, 1992 | 330 | 1992 |
Carbon fibers formed from single-wall carbon nanotubes RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, K Smith, ... US Patent 6,683,783, 2004 | 295 | 2004 |
Nanoscale energy deposition by X-ray absorbing nanostructures JD Carter, NN Cheng, Y Qu, GD Suarez, T Guo The journal of physical chemistry B 111 (40), 11622-11625, 2007 | 291 | 2007 |
Membrane comprising an array of single-wall carbon nanotubes RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 7,205,069, 2007 | 279 | 2007 |
Method for producing self-assembled objects comprising single-wall carbon nanotubes and compositions thereof RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 7,048,999, 2006 | 273 | 2006 |
Method for growing continuous fiber RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 6,749,827, 2004 | 250 | 2004 |
Continuous fiber of single-wall carbon nanotubes RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 6,979,709, 2005 | 235 | 2005 |
Ab initio theoretical predictions of C28, C28H4, C28F4, (Ti@C28)H4, and M@C28 (M=Mg, Al, Si, S, Ca, Sc, Ti, Ge, Zr, and Sn) T Guo, RE Smalley, GE Scuseria The Journal of chemical physics 99 (1), 352-359, 1993 | 208 | 1993 |
Array of single-wall carbon nanotubes RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 7,071,406, 2006 | 202 | 2006 |
Method for forming composites of sub-arrays of single-wall carbon nanotubes RE Smalley, DT Colbert, H Dai, J Liu, AG Rinzler, JH Hafner, KA Smith, ... US Patent 6,986,876, 2006 | 201 | 2006 |