| Conversion of zinc oxide nanobelts into superlattice-structured nanohelices PX Gao, Y Ding, W Mai, WL Hughes, C Lao, ZL Wang Science 309 (5741), 1700-1704, 2005 | 1082 | 2005 |
| Semiconducting and piezoelectric oxide nanostructures induced by polar surfaces ZL Wang, XY Kong, Y Ding, P Gao, WL Hughes, R Yang, Y Zhang Advanced Functional Materials 14 (10), 943-956, 2004 | 776 | 2004 |
| Dual-mode mechanical resonance of individual ZnO nanobelts XD Bai, PX Gao, ZL Wang, EG Wang Applied Physics Letters 82 (26), 4806-4808, 2003 | 655 | 2003 |
| Single‐Crystal Hexagonal Disks and Rings of ZnO: Low‐Temperature, Large‐Scale Synthesis and Growth Mechanism F Li, Y Ding, P Gao, X Xin, ZL Wang Angewandte Chemie International Edition 43 (39), 5238-5242, 2004 | 588 | 2004 |
| Nanowire piezoelectric nanogenerators on plastic substrates as flexible power sources for nanodevices PX Gao, J Song, J Liu, ZL Wang Advanced Materials 19 (1), 67-72, 2007 | 528 | 2007 |
| Crystallographic orientation-aligned ZnO nanorods grown by a tin catalyst PX Gao, Y Ding, ZL Wang Nano Letters 3 (9), 1315-1320, 2003 | 521 | 2003 |
| ZnO nanobelt/nanowire Schottky diodes formed by dielectrophoresis alignment across Au electrodes CS Lao, J Liu, P Gao, L Zhang, D Davidovic, R Tummala, ZL Wang Nano Letters 6 (2), 263-266, 2006 | 467 | 2006 |
| Mesoporous polyhedral cages and shells formed by textured self-assembly of ZnO nanocrystals PX Gao, ZL Wang Journal of the American Chemical Society 125 (37), 11299-11305, 2003 | 458 | 2003 |
| Self-assembled nanowire− nanoribbon junction arrays of ZnO P Gao, ZL Wang The journal of physical chemistry B 106 (49), 12653-12658, 2002 | 451 | 2002 |
| Nanopropeller arrays of zinc oxide PX Gao, ZL Wang Applied physics letters 84 (15), 2883-2885, 2004 | 410 | 2004 |
| Manganese-doped ZnO nanobelts for spintronics C Ronning, PX Gao, Y Ding, ZL Wang, D Schwen Applied physics letters 84 (5), 783-785, 2004 | 397 | 2004 |
| Rectangular porous ZnO–ZnS nanocables and ZnS nanotubes X Wang, P Gao, J Li, CJ Summers, ZL Wang Advanced Materials 14 (23), 1732-1735, 2002 | 343 | 2002 |
| Measuring the work function at a nanobelt tip and at a nanoparticle surface X Bai, EG Wang, P Gao, ZL Wang Nano letters 3 (8), 1147-1150, 2003 | 313 | 2003 |
| Catalyst− nanostructure interfacial lattice mismatch in determining the shape of VLS grown nanowires and nanobelts: a case of Sn/ZnO Y Ding, PX Gao, ZL Wang Journal of the American Chemical Society 126 (7), 2066-2072, 2004 | 274 | 2004 |
| A review of NO x storage/reduction catalysts: mechanism, materials and degradation studies G Liu, PX Gao Catalysis Science & Technology 1 (4), 552-568, 2011 | 268 | 2011 |
| Substrate atomic-termination-induced anisotropic growth of ZnO nanowires/nanorods by the VLS process PX Gao, ZL Wang The Journal of Physical Chemistry B 108 (23), 7534-7537, 2004 | 254 | 2004 |
| Monolithically integrated spinel MxCo3− xO4 (M= Co, Ni, Zn) nanoarray catalysts: scalable synthesis and cation manipulation for tunable low‐temperature CH4 and CO oxidation Z Ren, V Botu, S Wang, Y Meng, W Song, Y Guo, R Ramprasad, SL Suib, ... Angewandte Chemie 126 (28), 7351-7355, 2014 | 228 | 2014 |
| Nanoarchitectures of semiconducting and piezoelectric zinc oxide PX Gao, ZL Wang Journal of Applied Physics 97 (4), 2005 | 226 | 2005 |
| Ni- and Mn-Promoted Mesoporous Co3O4: A Stable Bifunctional Catalyst with Surface-Structure-Dependent Activity for Oxygen Reduction Reaction and Oxygen … W Song, Z Ren, SY Chen, Y Meng, S Biswas, P Nandi, HA Elsen, PX Gao, ... ACS applied materials & interfaces 8 (32), 20802-20813, 2016 | 215 | 2016 |
| Low temperature propane oxidation over Co3O4 based nano-array catalysts: Ni dopant effect, reaction mechanism and structural stability Z Ren, Z Wu, W Song, W Xiao, Y Guo, J Ding, SL Suib, PX Gao Applied Catalysis B: Environmental 180, 150-160, 2016 | 214 | 2016 |
Zhong Lin WangBeijing Institute of Nanoenergy and NanosystemsVerified email at mse.gatech.edu