| Effects of nanocrystalline CeO2 supports on the properties and performance of Ni–Rh bimetallic catalyst for oxidative steam reforming of ethanol J Kugai, V Subramani, C Song, MH Engelhard, YH Chin Journal of Catalysis 238 (2), 430-440, 2006 | 339 | 2006 |
| Consequences of Metal–Oxide Interconversion for C–H Bond Activation during CH4 Reactions on Pd Catalysts YH Chin, C Buda, M Neurock, E Iglesia Journal of the American Chemical Society 135 (41), 15425-15442, 2013 | 333 | 2013 |
| Steam reforming of methanol over highly active Pd/ZnO catalyst YH Chin, R Dagle, J Hu, AC Dohnalkova, Y Wang Catalysis Today 77 (1-2), 79-88, 2002 | 323 | 2002 |
| Reactivity of Chemisorbed Oxygen Atoms and Their Catalytic Consequences during CH4–O2 Catalysis on Supported Pt Clusters YH Chin, C Buda, M Neurock, E Iglesia Journal of the American Chemical Society 133 (40), 15958-15978, 2011 | 222 | 2011 |
| Carbon nanotube-containing structures, methods of making, and processes using same Y Wang, YH Chin, Y Gao, CL Aardahl, TL Stewart US Patent US6824689 B2, 2004 | 218 | 2004 |
| Highly active and stable Rh/MgOAl2O3 catalysts for methane steam reforming Y Wang, YH Chin, RT Rozmiarek, BR Johnson, Y Gao, J Watson, ... Catalysis Today 98 (4), 575-581, 2004 | 194 | 2004 |
| Characterization of CeO2-supported Cu–Pd bimetallic catalyst for the oxygen-assisted water–gas shift reaction EB Fox, S Velu, MH Engelhard, YH Chin, JT Miller, J Kropf, C Song Journal of Catalysis 260 (2), 358-370, 2008 | 167 | 2008 |
| Structure and reactivity investigations on supported bimetallic AuNi catalysts used for hydrocarbon steam reforming YHC Chin, DL King, HS Roh, Y Wang, SM Heald Journal of Catalysis 244 (2), 153-162, 2006 | 156 | 2006 |
| Development of a soldier-portable fuel cell power system: Part I: A bread-board methanol fuel processor DR Palo, JD Holladay, RT Rozmiarek, CE Guzman-Leong, Y Wang, J Hu, ... Journal of Power sources 108 (1-2), 28-34, 2002 | 154 | 2002 |
| Adsorptive removal of organic sulfur compounds from jet fuel over K-exchanged NiY zeolites prepared by impregnation and ion exchange S Velu, C Song, MH Engelhard, YH Chin Industrial & engineering chemistry research 44 (15), 5740-5749, 2005 | 150 | 2005 |
| Consequences of surface oxophilicity of Ni, Ni-Co, and Co clusters on methane activation W Tu, M Ghoussoub, CV Singh, YHC Chin Journal of the American Chemical Society 139 (20), 6928-6945, 2017 | 138 | 2017 |
| Dynamics and thermodynamics of Pd–PdO phase transitions: effects of Pd cluster size and kinetic implications for catalytic methane combustion YH Chin, M García-Diéguez, E Iglesia The Journal of Physical Chemistry C 120 (3), 1446-1460, 2016 | 127 | 2016 |
| Methanol steam reforming over Pd/ZnO: Catalyst preparation and pretreatment studies YH Chin, Y Wang, RA Dagle, XS Li Fuel Processing Technology 83 (1-3), 193-201, 2003 | 115 | 2003 |
| Elementary Steps, the Role of Chemisorbed Oxygen, and the Effects of Cluster Size in Catalytic CH4–O2 Reactions on Palladium YH Chin, E Iglesia The Journal of Physical Chemistry C 115 (36), 17845-17855, 2011 | 114 | 2011 |
| Low Temperature and H2 Selective Catalysts for Ethanol Steam Reforming HS Roh, Y Wang, DL King, A Platon, YH Chin Catalysis letters 108, 15-19, 2006 | 110 | 2006 |
| Carbon nanotube-containing catalysts, methods of making, and reactions catalyzed over nanotube catalysts Y Wang, YH Chin, Y Gao US Patent US 7008969 B2, 2006 | 107 | 2006 |
| Fischer-Tropsch synthesis using microchannel technology and novel catalyst and microchannel reactor Y Wang, AL Tonkovich, T Mazanec, FP Daly, D VanderWiel, J Hu, C Cao, ... US Patent 7,084,180, 2006 | 102 | 2006 |
| Selectivity of chemisorbed oxygen in C–H bond activation and CO oxidation and kinetic consequences for CH4–O2 catalysis on Pt and Rh clusters YHC Chin, C Buda, M Neurock, E Iglesia Journal of catalysis 283 (1), 10-24, 2011 | 101 | 2011 |
| Effect of nickel microstructure on methane steam-reforming activity of Ni-YSZ cermet anode catalyst DL King, JJ Strohm, XQ Wang, HS Roh, CM Wang, YH Chin, Y Wang, ... Journal of Catalysis 258, 356-365, 2008 | 94 | 2008 |
| Microcombustors, microreformers, and methods for combusting and for reforming fluids JD Holladay, MR Phelps, Y Wang, YH Chin US Patent 7,077,643, 2006 | 83 | 2006 |
