| Solution-liquid-solid growth of crystalline III-V semiconductors: an analogy to vapor-liquid-solid growth TJ Trentler, KM Hickman, SC Goel, AM Viano, PC Gibbons, WE Buhro Science 270 (5243), 1791-1794, 1995 | 1457 | 1995 |
| Kinetics and mechanisms of aggregative nanocrystal growth F Wang, VN Richards, SP Shields, WE Buhro Chemistry of Materials 26 (1), 5-21, 2014 | 584 | 2014 |
| CVD growth of boron nitride nanotubes OR Lourie, CR Jones, BM Bartlett, PC Gibbons, RS Ruoff, WE Buhro Chemistry of Materials 12 (7), 1808-1810, 2000 | 570 | 2000 |
| Two-versus three-dimensional quantum confinement in indium phosphide wires and dots H Yu, J Li, RA Loomis, LW Wang, WE Buhro Nature materials 2 (8), 517-520, 2003 | 488 | 2003 |
| Solution− liquid− solid growth of semiconductor nanowires F Wang, A Dong, J Sun, R Tang, H Yu, WE Buhro Inorganic chemistry 45 (19), 7511-7521, 2006 | 402 | 2006 |
| Cadmium selenide quantum wires and the transition from 3D to 2D confinement H Yu, J Li, RA Loomis, PC Gibbons, Wang, WE Buhro Journal of the American Chemical Society 125 (52), 16168-16169, 2003 | 382 | 2003 |
| Shape matters WE Buhro, VL Colvin Nature materials 2 (3), 138-139, 2003 | 374 | 2003 |
| Heterogeneous seeded growth: a potentially general synthesis of monodisperse metallic nanoparticles H Yu, PC Gibbons, KF Kelton, WE Buhro Journal of the American Chemical Society 123 (37), 9198-9199, 2001 | 272 | 2001 |
| Crystalline boron nanowires CJ Otten, OR Lourie, MF Yu, JM Cowley, MJ Dyer, RS Ruoff, WE Buhro Journal of the American Chemical Society 124 (17), 4564-4565, 2002 | 264 | 2002 |
| Lamellar assembly of cadmium selenide nanoclusters into quantum belts YH Liu, F Wang, Y Wang, PC Gibbons, WE Buhro Journal of the American Chemical Society 133 (42), 17005-17013, 2011 | 246 | 2011 |
| The trouble with TOPO; identification of adventitious impurities beneficial to the growth of cadmium selenide quantum dots, rods, and wires F Wang, R Tang, WE Buhro Nano Letters 8 (10), 3521-3524, 2008 | 244 | 2008 |
| Solution− liquid− solid growth of indium phosphide fibers from organometallic precursors: elucidation of molecular and nonmolecular components of the pathway TJ Trentler, SC Goel, KM Hickman, AM Viano, MY Chiang, AM Beatty, ... Journal of the American Chemical Society 119 (9), 2172-2181, 1997 | 241 | 1997 |
| Solution–liquid–solid growth of soluble GaAs nanowires H Yu, WE Buhro Advanced Materials 15 (5), 416-419, 2003 | 228 | 2003 |
| Kinetic instability of nanocrystalline aluminum prepared by chemical synthesis; facile room-temperature grain growth JA Haber, WE Buhro Journal of the American Chemical Society 120 (42), 10847-10855, 1998 | 212 | 1998 |
| Size-and shape-controlled synthesis of bismuth nanoparticles F Wang, R Tang, H Yu, PC Gibbons, WE Buhro Chemistry of Materials 20 (11), 3656-3662, 2008 | 194 | 2008 |
| Spectroscopic Identification of Tri-n-octylphosphine Oxide (TOPO) Impurities and Elucidation of Their Roles in Cadmium Selenide Quantum-Wire Growth F Wang, R Tang, JLF Kao, SD Dingman, WE Buhro Journal of the American Chemical Society 131 (13), 4983-4994, 2009 | 191 | 2009 |
| Solution–liquid–solid synthesis, properties, and applications of one-dimensional colloidal semiconductor nanorods and nanowires F Wang, A Dong, WE Buhro Chemical reviews 116 (18), 10888-10933, 2016 | 190 | 2016 |
| Bismuth, tellurium, and bismuth telluride nanowires H Yu, PC Gibbons, WE Buhro Journal of Materials Chemistry 14 (4), 595-602, 2004 | 171 | 2004 |
| Nucleation control of size and dispersity in aggregative nanoparticle growth. A study of the coarsening kinetics of thiolate-capped gold nanocrystals SP Shields, VN Richards, WE Buhro Chemistry of materials 22 (10), 3212-3225, 2010 | 170 | 2010 |
| The Magic-Size Nanocluster (CdSe)34 as a Low-Temperature Nucleant for Cadmium Selenide Nanocrystals; Room-Temperature Growth of Crystalline Quantum … Y Wang, Y Zhang, F Wang, DE Giblin, J Hoy, HW Rohrs, RA Loomis, ... Chemistry of Materials 26 (7), 2233-2243, 2014 | 169 | 2014 |
