An efficient room-temperature silicon-based light-emitting diode WL Ng, MA Lourenco, RM Gwilliam, S Ledain, G Shao, KP Homewood Nature 410 (6825), 192-194, 2001 | 885 | 2001 |
Two-dimensional Ruddlesden–Popper layered perovskite solar cells based on phase-pure thin films C Liang, H Gu, Y Xia, Z Wang, X Liu, J Xia, S Zuo, Y Hu, X Gao, W Hui, ... Nature Energy 6 (1), 38-45, 2021 | 246 | 2021 |
Mn-doped TiO2 nanopowders with remarkable visible light photocatalytic activity QR Deng, XH Xia, ML Guo, Y Gao, G Shao Materials Letters 65 (13), 2051-2054, 2011 | 242 | 2011 |
Phase pure 2D perovskite for high‐performance 2D–3D heterostructured perovskite solar cells P Li, Y Zhang, C Liang, G Xing, X Liu, F Li, X Liu, X Hu, G Shao, Y Song Advanced materials 30 (52), 1805323, 2018 | 221 | 2018 |
Porous carbons: Structure‐oriented design and versatile applications W Tian, H Zhang, X Duan, H Sun, G Shao, S Wang Advanced Functional Materials 30 (17), 1909265, 2020 | 207 | 2020 |
Oxidation of Nb–Si–Cr–Al in situ composites with Mo, Ti and Hf additions J Geng, P Tsakiropoulos, G Shao Materials Science and Engineering: A 441 (1-2), 26-38, 2006 | 182 | 2006 |
Red Shift in Manganese- and Iron-Doped TiO2: A DFT+U Analysis G Shao The Journal of Physical Chemistry C 113 (16), 6800-6808, 2009 | 177 | 2009 |
On the oxidation behaviour of MoSi2 YQ Liu, G Shao, P Tsakiropoulos Intermetallics 9 (2), 125-136, 2001 | 172 | 2001 |
Inkjet manipulated homogeneous large size perovskite grains for efficient and large-area perovskite solar cells P Li, C Liang, B Bao, Y Li, X Hu, Y Wang, Y Zhang, F Li, G Shao, Y Song Nano Energy 46, 203-211, 2018 | 156 | 2018 |
Electronic Structures of Manganese-Doped Rutile TiO2 from First Principles G Shao The Journal of Physical Chemistry C 112 (47), 18677-18685, 2008 | 156 | 2008 |
A study of the effects of Hf and Sn additions on the microstructure of Nbss/Nb5Si3 based in situ composites J Geng, P Tsakiropoulos, G Shao Intermetallics 15 (1), 69-76, 2007 | 146 | 2007 |
Prediction of phase selection in rapid solidification using time dependent nucleation theory G Shao, P Tsakiropoulos Acta metallurgica et materialia 42 (9), 2937-2942, 1994 | 139 | 1994 |
Buried interfaces in halide perovskite photovoltaics X Yang, D Luo, Y Xiang, L Zhao, M Anaya, Y Shen, J Wu, W Yang, ... Advanced materials 33 (7), 2006435, 2021 | 132 | 2021 |
The formation of onion-like carbon-encapsulated cobalt carbide core/shell nanoparticles by the laser ablation of metallic cobalt in acetone H Zhang, C Liang, J Liu, Z Tian, G Shao Carbon 55, 108-115, 2013 | 126 | 2013 |
Photogenerated electron transfer process in heterojunctions: in situ irradiation XPS P Zhang, Y Li, Y Zhang, R Hou, X Zhang, C Xue, S Wang, B Zhu, N Li, ... Small Methods 4 (9), 2000214, 2020 | 123 | 2020 |
Construction of solid-state Z-scheme carbon-modified TiO2/WO3 nanofibers with enhanced photocatalytic hydrogen production J Hu, L Wang, P Zhang, C Liang, G Shao Journal of Power Sources 328, 28-36, 2016 | 122 | 2016 |
Thermodynamic reassessment of the Mo–Si and Al–Mo–Si systems Y Liu, G Shao, P Tsakiropoulos Intermetallics 8 (8), 953-962, 2000 | 122 | 2000 |
One-dimensional Z-scheme TiO2/WO3/Pt heterostructures for enhanced hydrogen generation H Gao, P Zhang, J Hu, J Pan, J Fan, G Shao Applied Surface Science 391, 211-217, 2017 | 115 | 2017 |
The effects of Ti and Mo additions on the microstructure of Nb-silicide based in situ composites J Geng, P Tsakiropoulos, G Shao Intermetallics 14 (3), 227-235, 2006 | 115 | 2006 |
A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries Y Zhang, P Zhang, S Zhang, Z Wang, N Li, SRP Silva, G Shao InfoMat 3 (7), 790-803, 2021 | 114 | 2021 |