Carbothermal shock synthesis of high-entropy-alloy nanoparticles Y Yao, Z Huang, P Xie, SD Lacey, RJ Jacob, H Xie, F Chen, A Nie, T Pu, ... Science 359 (6383), 1489-1494, 2018 | 1237 | 2018 |
Improving the hydrogen oxidation reaction rate by promotion of hydroxyl adsorption D Strmcnik, M Uchimura, C Wang, R Subbaraman, N Danilovic, ... Nature chemistry 5 (4), 300-306, 2013 | 1119 | 2013 |
A General Approach to the Size‐and Shape‐Controlled Synthesis of Platinum Nanoparticles and Their Catalytic Reduction of Oxygen C Wang, H Daimon, T Onodera, T Koda, S Sun Angewandte Chemie International Edition 47 (19), 3588-3591, 2008 | 1030 | 2008 |
Design and synthesis of bimetallic electrocatalyst with multilayered Pt-skin surfaces C Wang, M Chi, D Li, D Strmcnik, D Van der Vliet, G Wang, V Komanicky, ... Journal of the American Chemical Society 133 (36), 14396-14403, 2011 | 652 | 2011 |
Synthesis of monodisperse Pt nanocubes and their enhanced catalysis for oxygen reduction C Wang, H Daimon, Y Lee, J Kim, S Sun Journal of the American Chemical Society 129 (22), 6974-6975, 2007 | 643 | 2007 |
Synthesis and stabilization of monodisperse Fe nanoparticles S Peng, C Wang, J Xie, S Sun Journal of the American Chemical Society 128 (33), 10676-10677, 2006 | 635 | 2006 |
Au–Fe3O4 Dumbbell Nanoparticles as Dual‐Functional Probes C Xu, J Xie, D Ho, C Wang, N Kohler, EG Walsh, JR Morgan, YE Chin, ... Angewandte Chemie International Edition 47 (1), 173-176, 2008 | 621 | 2008 |
Cold welding of ultrathin gold nanowires Y Lu, JY Huang, C Wang, S Sun, J Lou Nature Nanotechnology 5 (3), 218-224, 2010 | 571 | 2010 |
Dumbbell-like Pt− Fe3O4 nanoparticles and their enhanced catalysis for oxygen reduction reaction C Wang, H Daimon, S Sun Nano letters 9 (4), 1493-1496, 2009 | 530 | 2009 |
Surfactant removal for colloidal nanoparticles from solution synthesis: the effect on catalytic performance D Li, C Wang, D Tripkovic, S Sun, NM Markovic, VR Stamenkovic Acs Catalysis 2 (7), 1358-1362, 2012 | 524 | 2012 |
Multimetallic Au/FePt3 nanoparticles as highly durable electrocatalyst C Wang, D Van der Vliet, KL More, NJ Zaluzec, S Peng, S Sun, H Daimon, ... Nano letters 11 (3), 919-926, 2010 | 505 | 2010 |
Ultrathin Au nanowires and their transport properties C Wang, Y Hu, CM Lieber, S Sun Journal of the American Chemical Society 130 (28), 8902-8903, 2008 | 505 | 2008 |
Highly efficient decomposition of ammonia using high-entropy alloy catalysts P Xie, Y Yao, Z Huang, Z Liu, J Zhang, T Li, G Wang, ... Nature communications 10 (1), 1-12, 2019 | 487 | 2019 |
A facile synthesis of monodisperse Au nanoparticles and their catalysis of CO oxidation S Peng, Y Lee, C Wang, H Yin, S Dai, S Sun Nano Research 1 (3), 229-234, 2008 | 474 | 2008 |
Advanced platinum alloy electrocatalysts for the oxygen reduction reaction C Wang, NM Markovic, VR Stamenkovic Acs Catalysis 2 (5), 891-898, 2012 | 473 | 2012 |
Tunable intrinsic strain in two-dimensional transition metal electrocatalysts L Wang, Z Zeng, W Gao, T Maxson, D Raciti, M Giroux, X Pan, C Wang, ... Science 363 (6429), 870-874, 2019 | 425 | 2019 |
Highly Dense Cu Nanowires for Low-Overpotential CO2 Reduction D Raciti, KJ Livi, C Wang Nano letters 15 (10), 6829-6835, 2015 | 408 | 2015 |
Unique Electrochemical Adsorption Properties of Pt‐Skin Surfaces DF van der Vliet, C Wang, D Li, AP Paulikas, J Greeley, RB Rankin, ... Angewandte Chemie 124 (13), 3193-3196, 2012 | 398 | 2012 |
Mesostructured thin films as electrocatalysts with tunable composition and surface morphology DF van der Vliet, C Wang, D Tripkovic, D Strmcnik, XF Zhang, MK Debe, ... Nature materials 11 (12), 1051-1058, 2012 | 374 | 2012 |
A general strategy for synthesizing FePt nanowires and nanorods C Wang, Y Hou, J Kim, S Sun Angewandte Chemie 119 (33), 6449-6451, 2007 | 371 | 2007 |