A selective and efficient electrocatalyst for carbon dioxide reduction Q Lu, J Rosen, Y Zhou, GS Hutchings, YC Kimmel, JG Chen, F Jiao Nature communications 5, 3242, 2014 | 1475 | 2014 |
Design of Single-Atom Co–N5 Catalytic Site: A Robust Electrocatalyst for CO2 Reduction with Nearly 100% CO Selectivity and Remarkable Stability Y Pan, R Lin, Y Chen, S Liu, W Zhu, X Cao, W Chen, K Wu, WC Cheong, ... Journal of the American Chemical Society 140 (12), 4218-4221, 2018 | 1065 | 2018 |
Electrochemical CO2 reduction: Electrocatalyst, reaction mechanism, and process engineering Q Lu, F Jiao Nano Energy 29, 439–456, 2016 | 784 | 2016 |
Copper atom-pair catalyst anchored on alloy nanowires for selective and efficient electrochemical reduction of CO2 J Jiao, R Lin, S Liu, WC Cheong, C Zhang, Z Chen, Y Pan, J Tang, K Wu, ... Nature chemistry 11, 222-228, 2019 | 621 | 2019 |
The Central Role of Bicarbonate in the Electrochemical Reduction of Carbon Dioxide on Gold M Dunwell, Q Lu, JM Heyes, J Rosen, JG Chen, Y Yan, F Jiao, B Xu Journal of the American Chemical Society 139 (10), 3774–3783, 2017 | 590 | 2017 |
Nanostructured Electrodes for High‐Performance Pseudocapacitors Q Lu, JG Chen, JQ Xiao Angewandte Chemie International Edition 52 (7), 1882-1889, 2013 | 584 | 2013 |
Mechanistic Insights into the Electrochemical Reduction of CO2 to CO on Nanostructured Ag Surfaces J Rosen, GS Hutchings, Q Lu, S Rivera, Y Zhou, DG Vlachos, F Jiao ACS Catalysis 5 (7), 4293–4299, 2015 | 580 | 2015 |
Highly porous non-precious bimetallic electrocatalysts for efficient hydrogen evolution Q Lu, GS Hutchings, W Yu, Y Zhou, RV Forest, R Tao, J Rosen, ... Nature Communications 6, 6567, 2015 | 553 | 2015 |
Supercapacitor Electrodes with High‐Energy and Power Densities Prepared from Monolithic NiO/Ni Nanocomposites Q Lu, MW Lattanzi, Y Chen, X Kou, W Li, X Fan, KM Unruh, JG Chen, ... Angewandte Chemie International Edition 50 (30), 6847–6850, 2011 | 447 | 2011 |
Electrodeposited Zn dendrites with enhanced CO selectivity for electrocatalytic CO2 reduction J Rosen, GS Hutchings, Q Lu, RV Forest, A Moore, F Jiao ACS Catalysis 5 (8), 4586–4591, 2015 | 426 | 2015 |
Nanostructured Metallic Electrocatalysts for Carbon Dioxide Reduction Q Lu, J Rosen, F Jiao ChemCatChem 7 (1), 38-47, 2014 | 299 | 2014 |
Application of Ceria in CO2 Conversion Catalysis K Chang, H Zhang, M Cheng, Q Lu ACS Catalysis 10 (1), 613-631, 2020 | 185 | 2020 |
Computational and experimental demonstrations of one-pot tandem catalysis for electrochemical carbon dioxide reduction to methane H Zhang, X Chang, JG Chen, WA Goddard, B Xu, MJ Cheng, Q Lu Nature communications 10, 3340, 2019 | 173 | 2019 |
Tailoring the Electrochemical Production of H2O2: Strategies for the Rational Design of High‐Performance Electrocatalysts J Zhang, H Zhang, MJ Cheng, Q Lu Small 16 (15), 1902845, 2020 | 163 | 2020 |
Memory effect in magnetic nanowire arrays X Kou, X Fan, RK Dumas, Q Lu, Y Zhang, H Zhu, X Zhang, K Liu, JQ Xiao Advanced Materials 23 (11), 1393-1397, 2011 | 156 | 2011 |
Oxygen induced promotion of electrochemical reduction of CO2 via co-electrolysis M He, C Li, H Zhang, X Chang, JG Chen, WA Goddard, M Cheng, B Xu, ... Nature Communications 11, 3844, 2020 | 123 | 2020 |
Understanding the electric and nonelectric field components of the cation effect on the electrochemical CO reduction reaction AS Malkani, J Li, NJ Oliveira, M He, X Chang, B Xu, Q Lu Science Advances 6 (45), eabd2569, 2020 | 118 | 2020 |
Ordered mesoporous nickel cobaltite spinel with ultra-high supercapacitance Q Lu, Y Chen, W Li, JG Chen, JQ Xiao, F Jiao Journal of Materials Chemistry A 1 (6), 2331-2336, 2013 | 114 | 2013 |
Ordered mesoporous metal carbides with enhanced anisole hydrodeoxygenation selectivity Q Lu, CJ Chen, WW Luc, JG Chen, A Bhan, F Jiao ACS Catalysis 6 (6), 3506-3514, 2016 | 110 | 2016 |
Electrokinetic and in situ spectroscopic investigations of CO electrochemical reduction on copper J Li, X Chang, H Zhang, AS Malkani, M Cheng, B Xu, Q Lu Nature communications 12 (1), 3264, 2021 | 107 | 2021 |