| Iron-based catalysts for the high-temperature water–gas shift (HT-WGS) reaction: a review M Zhu, IE Wachs ACS catalysis 6 (2), 722-732, 2016 | 342 | 2016 |
| Reconstructed covalent organic frameworks W Zhang, L Chen, S Dai, C Zhao, C Ma, L Wei, M Zhu, SY Chong, H Yang, ... Nature 604 (7904), 72-79, 2022 | 315 | 2022 |
| Nature of Active Sites and Surface Intermediates during SCR of NO with NH3 by Supported V2O5–WO3/TiO2 Catalysts M Zhu, JK Lai, U Tumuluri, Z Wu, IE Wachs Journal of the American Chemical Society 139 (44), 15624-15627, 2017 | 309 | 2017 |
| Induced activation of the commercial Cu/ZnO/Al2O3 catalyst for the steam reforming of methanol D Li, F Xu, X Tang, S Dai, T Pu, X Liu, P Tian, F Xuan, Z Xu, IE Wachs, ... Nature Catalysis 5 (2), 99-108, 2022 | 285 | 2022 |
| Covalently Grafting Cobalt Porphyrin onto Carbon Nanotubes for Efficient CO2 Electroreduction M Zhu, J Chen, L Huang, R Ye, J Xu, YF Han Angewandte Chemie International Edition 58 (20), 6595-6599, 2019 | 265 | 2019 |
| Synergistic Effect of Atomically Dispersed Ni–Zn Pair Sites for Enhanced CO2 Electroreduction Y Li, B Wei, M Zhu, J Chen, Q Jiang, B Yang, Y Hou, L Lei, Z Li, R Zhang, ... Advanced Materials 33 (41), 2102212, 2021 | 244 | 2021 |
| Essential Role of the Support for Nickel-Based CO2 Methanation Catalysts L Shen, J Xu, M Zhu, YF Han ACS Catalysis 10 (24), 14581-14591, 2020 | 239 | 2020 |
| Elucidating Reactivity and Mechanism of CO2 Electroreduction at Highly Dispersed Cobalt Phthalocyanine M Zhu, R Ye, K Jin, N Lazouski, K Manthiram ACS Energy Letters 3, 1381-1386, 2018 | 222 | 2018 |
| Unraveling Highly Tunable Selectivity in CO2 Hydrogenation over Bimetallic In-Zr Oxide Catalysts T Chen, C Cao, T Chen, X Ding, H Huang, L Shen, X Cao, M Zhu, J Xu, ... Acs Catalysis 9 (9), 8785-8797, 2019 | 202 | 2019 |
| Engineering heterogeneous catalysis with strong metal–support interactions: characterization, theory and manipulation T Pu, W Zhang, M Zhu Angewandte Chemie International Edition 62 (4), e202212278, 2023 | 179 | 2023 |
| Cobalt Phthalocyanine Coordinated to Pyridine-Functionalized Carbon Nanotubes with Enhanced CO2 Electroreduction M Zhu, J Chen, R Guo, J Xu, X Fang, YF Han Applied Catalysis B: Environmental 251, 112-118, 2019 | 174 | 2019 |
| Strain enhances the activity of molecular electrocatalysts via carbon nanotube supports J Su, CB Musgrave III, Y Song, L Huang, Y Liu, G Li, Y Xin, P Xiong, ... Nature Catalysis 6 (9), 818-828, 2023 | 171 | 2023 |
| Influence of catalyst synthesis method on selective catalytic reduction (SCR) of NO by NH3 with V2O5-WO3/TiO2 catalysts Y He, ME Ford, M Zhu, Q Liu, U Tumuluri, Z Wu, IE Wachs Applied Catalysis B: Environmental 193, 141-150, 2016 | 170 | 2016 |
| A decade+ of operando spectroscopy studies A Chakrabarti, ME Ford, D Gregory, R Hu, CJ Keturakis, S Lwin, Y Tang, ... Catalysis Today 283, 27-53, 2017 | 166 | 2017 |
| Vacancy engineering of the nickel-based catalysts for enhanced CO2 methanation M Zhu, P Tian, X Cao, J Chen, T Pu, B Shi, J Xu, J Moon, Z Wu, YF Han Applied Catalysis B: Environmental 282, 119561, 2021 | 149 | 2021 |
| Building a stable cationic molecule/electrode interface for highly efficient and durable CO 2 reduction at an industrially relevant current J Su, JJ Zhang, J Chen, Y Song, L Huang, M Zhu, BI Yakobson, BZ Tang, ... Energy & Environmental Science 14 (1), 483-492, 2021 | 134 | 2021 |
| Direct Electrochemical Carboxylation of Benzylic CN Bonds with Carbon Dioxide D Yang, M Zhu, ZJ Schiffer, K Williams, X Song, X Liu, K Manthiram ACS Catalysis 9, 4699-4705, 2019 | 131 | 2019 |
| Strong Metal‐Support Interaction between Copper and Iron Oxide during the High Temperature Water‐Gas Shift Reaction M Zhu, P Tian, R Kurtz, T Lunkenbein, J Xu, R Schlögl, IE Wachs, YF Han Angewandte Chemie International Edition 58, 9083-9087, 2019 | 125 | 2019 |
| Structural buffer engineering on metal oxide for long‐term stable seawater splitting L Zhuang, J Li, K Wang, Z Li, M Zhu, Z Xu Advanced Functional Materials 32 (25), 2201127, 2022 | 118 | 2022 |
| Promotion mechanisms of iron oxide-based high temperature water–gas shift catalysts by chromium and copper M Zhu, TCR Rocha, T Lunkenbein, A Knop-Gericke, R Schlögl, ... ACS Catalysis 6 (7), 4455-4464, 2016 | 114 | 2016 |
Israel E. WachsProfessor of Chemical Engineering, Lehigh UniversityVerified email at lehigh.edu