| Size‐controlled synthesis of Cu2‐xE (E= S, Se) nanocrystals with strong tunable near‐infrared localized surface plasmon resonance and high conductivity in thin films X Liu, X Wang, B Zhou, WC Law, AN Cartwright, MT Swihart Advanced Functional Materials 23 (10), 1256-1264, 2013 | 291 | 2013 |
| Highly active and stable graphene tubes decorated with FeCoNi alloy nanoparticles via a template‐free graphitization for bifunctional oxygen reduction and evolution S Gupta, L Qiao, S Zhao, H Xu, Y Lin, SV Devaguptapu, X Wang, ... Advanced Energy Materials 6 (22), 1601198, 2016 | 237 | 2016 |
| Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries O Ogoke, G Wu, X Wang, A Casimir, L Ma, T Wu, J Lu Journal of materials chemistry A 5 (2), 448-469, 2017 | 162 | 2017 |
| Size-controlled large-diameter and few-walled carbon nanotube catalysts for oxygen reduction X Wang, Q Li, H Pan, Y Lin, Y Ke, H Sheng, MT Swihart, G Wu Nanoscale 7 (47), 20290-20298, 2015 | 131 | 2015 |
| Shape-controlled synthesis of SnE (E= S, Se) semiconductor nanocrystals for optoelectronics X Liu, Y Li, B Zhou, X Wang, AN Cartwright, MT Swihart Chemistry of Materials 26 (11), 3515-3521, 2014 | 112 | 2014 |
| Cu2–xSe Nanocrystals with Localized Surface Plasmon Resonance as Sensitive Contrast Agents for In Vivo Photoacoustic Imaging: Demonstration of Sentinel … X Liu, WC Law, M Jeon, X Wang, M Liu, C Kim, PN Prasad, MT Swihart Advanced healthcare materials 2 (7), 952-957, 2013 | 104 | 2013 |
| Cu-Deficient Plasmonic Cu2–xS Nanoplate Electrocatalysts for Oxygen Reduction X Wang, Y Ke, H Pan, K Ma, Q Xiao, D Yin, G Wu, MT Swihart Acs Catalysis 5 (4), 2534-2540, 2015 | 101 | 2015 |
| Cu2–xS1–ySey Alloy Nanocrystals with Broadly Tunable Near-Infrared Localized Surface Plasmon Resonance X Liu, X Wang, MT Swihart Chemistry of Materials 25 (21), 4402-4408, 2013 | 98 | 2013 |
| Enhanced Upconversion Luminescence in Yb3+/Tm3+-Codoped Fluoride Active Core/Active Shell/Inert Shell Nanoparticles through Directed Energy Migration H Qiu, C Yang, W Shao, J Damasco, X Wang, H Ågren, PN Prasad, ... Nanomaterials 4 (1), 55-68, 2014 | 97 | 2014 |
| Controlling the Size, Shape, Phase, Band Gap, and Localized Surface Plasmon Resonance of Cu2–xS and CuxInyS Nanocrystals X Wang, MT Swihart Chemistry of Materials 27 (5), 1786-1791, 2015 | 80 | 2015 |
| Size-, shape-, and composition-controlled synthesis and localized surface plasmon resonance of copper tin selenide nanocrystals X Wang, X Liu, D Yin, Y Ke, MT Swihart Chemistry of Materials 27 (9), 3378-3388, 2015 | 63 | 2015 |
| Composition-dependent crystal phase, optical properties, and self-assembly of Cu–Sn–S colloidal nanocrystals X Liu, X Wang, MT Swihart Chemistry of Materials 27 (4), 1342-1348, 2015 | 61 | 2015 |
| Enhanced upconversion emission in colloidal (NaYF4:Er3+)/NaYF4 core/shell nanoparticles excited at 1523 nm W Shao, G Chen, J Damasco, X Wang, A Kachynski, TY Ohulchanskyy, ... Optics letters 39 (6), 1386-1389, 2014 | 61 | 2014 |
| Controllable conversion of plasmonic Cu 2− x S nanoparticles to Au 2 S by cation exchange and electron beam induced transformation of Cu 2− x S–Au 2 S core/shell nanostructures X Wang, X Liu, D Zhu, MT Swihart Nanoscale 6 (15), 8852-8857, 2014 | 49 | 2014 |
| High-definition conductive silver patterns on polyimide film via an ion exchange plating method GW Yanqing Wang, Ning Li, Xianliang Wang, Dana Havas, Deyu Liab RSC Adv. 6, 7582-7590, 2016 | 19* | 2016 |
| Synthesis of Zn–In–S quantum dots with tunable composition and optical properties X Wang, J Damasco, W Shao, Y Ke, MT Swihart ChemPhysChem 17 (5), 687-691, 2016 | 17 | 2016 |
