Articles
82. Bridging adsorption analytics and catalytic kinetics for metal-exchanged zeolites P Xie, T Pu, G Aranovich, J Guo, M Donohue, A Kulkarni, C Wang Nature Catalysis 4 (2), 144-156, 2021 |
81. Denary oxide nanoparticles as highly stable catalysts for methane combustion T Li, Y Yao, Z Huang, P Xie, Z Liu, M Yang, J Gao, K Zeng, AH Brozena, … Nature Catalysis 4 (1), 62-70, 2021 |
80. Effect of cobalt addition on platinum supported on multi-walled carbon nanotubes for water-gas shift GM Mitchell, KD Sabnis, FG Sollberger, Y Cui, CW Han, P Majumdar, … Journal of Catalysis 391, 25-34, 2020 |
79. Thermal Radiation Synthesis of Ultrafine Platinum Nanoclusters toward Methanol Oxidation Y Qiao, Y Liu, Y Liu, Q Dong, G Zhong, X Wang, Z Liu, X Wang, S He, … Small Methods 4 (9), 2000265, 2020 |
78. Eliminating dissolution of platinum-based electrocatalysts at the atomic scale PP Lopes, D Li, H Lv, C Wang, D Tripkovic, Y Zhu, R Schimmenti, … Nature materials, 1-8, 2020 |
77. High-throughput, combinatorial synthesis of multimetallic nanoclusters Y Yao, Z Huang, T Li, H Wang, Y Liu, HS Stein, Y Mao, J Gao, M Jiao, … Proceedings of the National Academy of Sciences 117 (12), 6316-6322, 2020 |
76. Computationally aided, entropy-driven synthesis of highly efficient and durable multi-elemental alloy catalysts Y Yao, Z Liu, P Xie, Z Huang, T Li, D Morris, Z Finfrock, J Zhou, M Jiao, … Science advances 6 (11), eaaz0510, 2020 |
75. Copper Nanocubes for CO2 Reduction in Gas Diffusion Electrodes Y Wang, H Shen, KJT Livi, D Raciti, H Zong, J Gregg, M Onadeko, Y Wan, … Nano letters 19 (12), 8461-8468, 2019 |
74. Unprecedented electromagnetic interference shielding from three-dimensional Bi-continuous nanoporous graphene H Kashani, M Giroux, I Johnson, J Han, C Wang, M Chen Matter 1 (4), 1077-1087, 2019 |
73. Ensemble Effect in Bimetallic Electrocatalysts for CO2 Reduction Y Wang, L Cao, NJ Libretto, X Li, C Li, Y Wan, C He, J Lee, J Gregg, … Journal of the American Chemical Society 141 (42), 16635-16642, 2019 |
72. 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 |
71. High temperature shockwave stabilized single atoms Y Yao, Z Huang, P Xie, L Wu, L Ma, T Li, Z Pang, M Jiao, Z Liang, J Gao, … Nature nanotechnology 14 (9), 851-857, 2019 |
70. Ultrafast, Controllable Synthesis of Sub-Nano Metallic Clusters through Defect Engineering Y Yao, Z Huang, P Xie, T Li, SD Lacey, M Jiao, H Xie, KK Fu, RJ Jacob, … ACS applied materials & interfaces 11 (33), 29773-29779, 2019 |
69. 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 |
68. Electrocatalytic Study of Ethylene Glycol Oxidation on Pt3Sn Alloy Nanoparticles Y Liu, P Hu, M Wei, C Wang ChemElectroChem 6 (4), 1004-1008, 2019 |
67. Migration of Cobalt Species within Mixed Platinum-Cobalt Oxide Bifunctional Electrocatalysts in Alkaline Electrolytes L Wang, Z Zeng, C Ma, F Xu, M Giroux, M Chi, J Greeley, C Wang Journal of The Electrochemical Society 166 (7), F3093-F3097, 2019 |
66. Electrocatalytic oxidation of glycerol on platinum Y Liu, W Yu, D Raciti, DH Gracias, C Wang The Journal of Physical Chemistry C 123 (1), 426-432, 2018 |
65. Electro-Oxidation of Ethanol Using Pt3Sn Alloy Nanoparticles Y Liu, M Wei, D Raciti, Y Wang, P Hu, JH Park, M Barclay, C Wang ACS Catalysis, 2018 |
64. Electrochemical alternative to Fischer–Tropsch D Raciti, C Wang Nature Catalysis 1 (10), 741, 2018 |
63. Prospects of Platinum-Based Nanostructures for The Electrocatalytic Reduction of Oxygen L Wang, A Holewinski, C Wang ACS Catalysis 8 (10), 9388-9398, 2018 |
62. Improved Prediction of Nanoalloy Structures by the Explicit Inclusion of Adsorbates in Cluster Expansions C Li, D Raciti, T Pu, L Cao, C He, C Wang, T Mueller The Journal of Physical Chemistry C 122 (31), 18040-18047, 2018 |
61. Recent Advances in CO2 Reduction Electrocatalysis on Copper D Raciti, C Wang ACS Energy Letters, 2018 |
60. Three-Dimensional Hierarchical Copper-Based Nanostructures as Advanced Electrocatalysts for CO2 Reduction D Raciti, Y Wang, JH Park, C Wang ACS Applied Energy Materials, 2018 |
59. High-Flux CO Reduction Enabled by Three-Dimensional Nanostructured Copper Electrodes Y Wang, D Raciti, C Wang ACS Catalysis, 2018 |
58. Local pH Effect in the CO2 Reduction Reaction on High-Surface-Area Copper Electrocatalysts D Raciti, M Mao, JH Park, C Wang Journal of The Electrochemical Society 165 (10), F799-F804, 2018 |
57. Comparative Studies of Ethanol and Ethylene Glycol Oxidation on Platinum Electrocatalysts S Dewan, D Raciti, Y Liu, DH Gracias, C Wang Topics in Catalysis, 1-8, 2018 |
56. Nanoceria-Supported Single-Atom Platinum Catalysts for Direct Methane Conversion P Xie, T Pu, A Nie, S Hwang, SC Purdy, W Yu, D Su, JT Miller, C Wang ACS Catal. 8, 4044-4048, 2018 |
55. 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, M Rehwoldt, D Yu, MR Zachariah, C Wang, R Shahbazian-Yassar, J Li, L Hu Science, 359, 6383, 1489-1494, 2018 |
54. Recovery of ammonium from aqueous solutions using ZSM-5 MJ Manto, P Xie, MA Keller, WE Liano, T Pu, C Wang Chemosphere, 198, 501-509, 2018 |
53. Mass transfer effects in CO 2 reduction on Cu nanowire electrocatalysts D Raciti, M Mao, JH Park, C Wang Catalysis Science & Technology 8 (9), 2364-2369, 2018 |
52. Mass transport modelling for the electroreduction of CO2 on Cu nanowires D Raciti, M Mao, C Wang Nanotechnology 29, 4, 044001, 2017 |
51. Mechanistic Insights for Low-Overpotential Electroreduction of CO2 to CO on Copper Nanowires L Cao, D Raciti, C Li, KJT Livi, PF Rottmann, KJ Hemker, T Mueller, C Wang ACS Catal. 7, 12, 8578-8587, 2017 |
50. Low-Overpotential Electroreduction of Carbon Monoxide Using Copper Nanowires D Raciti, L Cao, KJT Livi, PF Rottman, X Tang, C Li, Z Hicks, KH Bowen, KJ Hemker, T Mueller, C Wang ACS Catal. 7, 7, 4467-4472, 2017 |
49. Recovery of Inorganic Phosphorus Using Copper-Substituted ZSM-5 MJ Manto, P Xie, MA Keller, WE Liano, T Pu, C Wang ACS Sustainable Chem. Eng., 5, 6192-6200, 2017 |
48. A Discovery of Strong Metal–Support Bonding in Nanoengineered Au–Fe3O4 Dumbbell-like Nanoparticles by in Situ Transmission Electron Microscopy CW Han, T Choksi, C Milligan, P Majumdar, MJ Manto, Y Cui, X Sang, RR Unocic, D Zemlyanov, C Wang, FH Ribeiro, J Greeley, V Ortalan Nano Lett., 17, 4576-4582, 2017 |
47. Catalytic Dephosphorylation Using Ceria Nanocrystals MJ Manto, P Xie, C Wang ACS Catal., 7, 1931-1938, 2017 |
46. Pt3Re alloy nanoparticles as electrocatalysts for the oxygen reduction reaction D Raciti, J Kubal, C Ma, M Barclay, M Gonzalez, M Chi, J Greeley, KM More, C Wang Nano Energy 20, 202-211, 2016 |
45. Highly Dense Cu Nanowires for Low-Overpotential CO2 Reduction D Raciti, K Livi, C Wang Nano Letters 15, 6829-6835, 2015 |
44. Macromolecular Brushes as Stabilizers of Hydrophobic Solute Nanoparticles H Luo, D Raciti, C Wang, M Herrera-Alonso Mol. Pharma 13, 1855-1865, 2016 |
43. Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching Z Huang, D Raciti, S Yu, L Zhang, L Deng, J He, Y Liu, NM Khashab, C Wang, J Gong J. Am. Chem. Soc. 138, 6332-6335, 2016 |
42. Exchange bias effect in Au-Fe3O4 nanocomposites S Chandra, NAF Huls, MH Phan, S Srinath, MA Garcia, Y Lee, C Wang, … Nanotechnology 25 (5), 055702, 2014 |
41. Functional links between Pt single crystal morphology and nanoparticles with different size and shape: the oxygen reduction reaction case D Li, C Wang, DS Strmcnik, DV Tripkovic, X Sun, Y Kang, M Chi, … Energy & Environmental Science, 2014 |
40. 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 |
39. 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 |
38. Cross-linked heterogeneous nanoparticles as bifunctional probe M Wang, C Wang, KL Young, L Hao, M Medved, T Rajh, HC Fry, L Zhu, … Chemistry of Materials 24 (13), 2423-2425, 2012 |
37. Rational development of ternary alloy electrocatalysts C Wang, D Li, M Chi, J Pearson, RB Rankin, J Greeley, Z Duan, G Wang, … The Journal of Physical Chemistry Letters 3 (12), 1668-1673, 2012 |
36. 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 |
35. Morphologic evolution of Au nanocrystals grown in ionic liquid by plasma reduction Y Xie, Z Wei, C Liu, L Cui, C Wang Journal of colloid and interface science 374 (1), 40-44, 2012 |
34. Advanced platinum alloy electrocatalysts for the oxygen reduction reaction C Wang, NM Markovic, VR Stamenkovic Acs Catalysis 2 (5), 891-898, 2012 |
33. 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 |
32. Platinum-alloy nanostructured thin film catalysts for the oxygen reduction reaction D Van der Vliet, C Wang, M Debe, R Atanasoski, NM Markovic, … Electrochimica Acta 56 (24), 8695-8699, 2011 |
31. Synthesis of homogeneous Pt-bimetallic nanoparticles as highly efficient electrocatalysts C Wang, M Chi, D Li, D van der Vliet, G Wang, Q Lin, J F. Mitchell, … Acs Catalysis 1 (10), 1355-1359, 2011 |
30. 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 |
29. Surfactant-induced postsynthetic modulation of Pd nanoparticle crystallinity Y Liu, C Wang, Y Wei, L Zhu, D Li, JS Jiang, NM Markovic, … Nano letters 11 (4), 1614-1617, 2011 |
28. Correlation Between Surface Chemistry and Electrocatalytic Properties of Monodisperse PtxNi1‐x Nanoparticles C Wang, M Chi, G Wang, D Van der Vliet, D Li, K More, HH Wang, … Advanced Functional Materials 21 (1), 147-152, 2011 |
27. On the importance of correcting for the uncompensated Ohmic resistance in model experiments of the Oxygen Reduction Reaction D van der Vliet, DS Strmcnik, C Wang, VR Stamenkovic, NM Markovic, … Journal of Electroanalytical Chemistry 647 (1), 29-34, 2010 |
26. 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 |
25. Bending nanowire growth in solution by mechanical disturbance C Wang, Y Wei, H Jiang, S Sun Nano letters 10 (6), 2121-2125, 2010 |
24. A General Approach to Noble Metal− Metal Oxide Dumbbell Nanoparticles and Their Catalytic Application for CO Oxidation C Wang, H Yin, S Dai, S Sun Chemistry of Materials 22 (10), 3277-3282, 2010 |
23. Rational synthesis of heterostructured nanoparticles with morphology control C Wang, W Tian, Y Ding, Y Ma, ZL Wang, NM Markovic, VR Stamenkovic, … Journal of the American Chemical Society 132 (18), 6524-6529, 2010 |
22. Cold welding of ultrathin gold nanowires Y Lu, JY Huang, C Wang, S Sun, J Lou Nature Nanotechnology 5 (3), 218-224, 2010 |
21. Synthesis of Supported Platinum Nanoparticles from Li− Pt Solid Solution T Xu, C Lin, C Wang, DL Brewe, Y Ito, J Lu Journal of the American Chemical Society 132 (7), 2151-2153, 2010 |
20. Monodisperse Pt3Co nanoparticles as electrocatalyst: the effects of particle size and pretreatment on electrocatalytic reduction of oxygen C Wang, G Wang, D van der Vliet, KC Chang, NM Markovic, … Physical Chemistry Chemical Physics 12 (26), 6933-6939, 2010 |
19. Tug-of-War in Nanoparticles: Competitive Growth of Au on Au− Fe3O4 Nanoparticles C Wang, Y Wei, H Jiang, S Sun Nano letters 9 (12), 4544-4547, 2009 |
18. Monodisperse Pt3Co nanoparticles as a catalyst for the oxygen reduction reaction: Size-dependent activity C Wang, D van der Vliet, KC Chang, H You, D Strmcnik, JA Schlueter, … The Journal of Physical Chemistry C 113 (45), 19365-19368, 2009 |
17. Recent Progress in Syntheses and Applications of Dumbbell‐like Nanoparticles C Wang, C Xu, H Zeng, S Sun Advanced materials 21 (30), 3045-3052, 2009 |
16. Facile Synthesis of Ultrathin and Single‐Crystalline Au Nanowires C Wang, S Sun Chemistry–An Asian Journal 4 (7), 1028-1034, 2009 |
15. Synthesis of high magnetic moment CoFe nanoparticles via interfacial diffusion in core/shell structured Co/Fe nanoparticles C Wang, S Peng, LM Lacroix, S Sun Nano Research 2 (5), 380-385, 2009 |
14. Interparticle interactions in coupled Au–Fe3O4 nanoparticles NA Frey, MH Phan, H Srikanth, S Srinath, C Wang S Sun Journal of applied physics 105 (7), 07B502, 2009 |
13. Synthesis of AuAg Alloy Nanoparticles from Core/Shell‐Structured Ag/Au C Wang, S Peng, R Chan, S Sun small 5 (5), 567-570, 2009 |
12. 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 |
11. One-pot synthesis of oleylamine coated AuAg alloy NPs and their catalysis for CO oxidation C Wang, H Yin, R Chan, S Peng, S Dai, S Sun Chemistry of Materials 21 (3), 433-435, 2009 |
10. 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 |
9. Colloidal deposition synthesis of supported gold nanocatalysts based on Au–Fe3O4 dumbbell nanoparticles H Yin, C Wang, H Zhu, SH Overbury, S Sun, S Dai Chem. Commun., 4357-4359, 2008 |
8. 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 |
7. 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 |
6. 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 |
5. A general strategy for synthesizing FePt nanowires and nanorods C Wang, Y Hou, J Kim, S Sun Angewandte Chemie International Edition 46 (33), 6333-6335, 2007 |
4. 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 |
3. Static and Dynamic Magnetic Properties of Composite Au-Fe O Nanoparticles NA Frey, S Srinath, H Srikanth, C Wang, S Sun Magnetics, IEEE Transactions on 43 (6), 3094-3096, 2007 |
2. Modeling multiterminal spintronic devices C Wang, Q Shi, X Wang, J Chen IEEE transactions on nanotechnology 6 (3), 309-315, 2007 |
1. 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 |
Book Chapters
1. Chapter 6 Recent Development of Platinum-Based Nanocatalysts for Oxygen Reduction Electrocatalysis D Raciti, Z Liu, M Chi, C Wang Nanomaterials for Fuel Cell Catalysis, Springer International Publishing: 2016; pp 253-280. |