| The role of electrode wettability in electrochemical reduction of carbon dioxide M Li, MN Idros, Y Wu, T Burdyny, S Garg, XS Zhao, G Wang, TE Rufford Journal of Materials Chemistry A 9 (35), 19369-19409, 2021 | 167 | 2021 |
| Effects of microporous layer on electrolyte flooding in gas diffusion electrodes and selectivity of CO2 electrolysis to CO Y Wu, S Garg, M Li, MN Idros, Z Li, R Lin, J Chen, G Wang, TE Rufford Journal of Power Sources 522, 230998, 2022 | 83 | 2022 |
| Mitigating Electrolyte Flooding for Electrochemical CO2 Reduction via Infiltration of Hydrophobic Particles in a Gas Diffusion Layer Y Wu, L Charlesworth, I Maglaya, MN Idros, M Li, T Burdyny, G Wang, ... ACS Energy Letters 7 (9), 2884-2892, 2022 | 77 | 2022 |
| Cobalt electrochemical recovery from lithium cobalt oxides in deep eutectic choline chloride+ urea solvents H Wang, M Li, S Garg, Y Wu, M Nazmi Idros, R Hocking, H Duan, S Gao, ... ChemSusChem 14 (14), 2972-2983, 2021 | 54 | 2021 |
| Unveiling the effects of dimensionality of tin oxide-derived catalysts on CO 2 reduction by using gas-diffusion electrodes M Li, MN Idros, Y Wu, S Garg, S Gao, R Lin, H Rabiee, Z Li, L Ge, ... Reaction Chemistry & Engineering 6 (2), 345-352, 2021 | 27 | 2021 |
| Understanding the Effects of Anion Interactions with Ag Electrodes on Electrochemical CO2 Reduction in Choline Halide Electrolytes S Garg, M Li, Y Wu, M Nazmi Idros, H Wang, AJ Yago, L Ge, GGX Wang, ... ChemSusChem 14 (12), 2601-2611, 2021 | 12 | 2021 |
| Effect of Dispersing Solvents for an Ionomer on the Performance of Copper Catalyst Layers for CO2 Electrolysis to Multicarbon Products MN Idros, Y Wu, T Duignan, M Li, H Cartmill, I Maglaya, T Burdyny, ... ACS applied materials & interfaces 15 (45), 52461-52472, 2023 | 11 | 2023 |
| Urea-Functionalized Silver Catalyst toward Efficient and Robust CO2 Electrolysis with Relieved Reliance on Alkali Cations S Garg, M Li, T Hussain, MN Idros, Y Wu, XS Zhao, GGX Wang, ... ACS applied materials & interfaces 14 (31), 35504-35512, 2022 | 7 | 2022 |
| Is maximising current density always the optimum strategy in electrolyser design for electrochemical CO2 conversion to chemicals? S Garg, M Li, MN Idros, Y Wu, G Wang, TE Rufford | 4 | 2021 |
| Flooding Control by Electrochemically Reduced Graphene Oxide Additives in Silver Catalyst Layers for CO2 Electrolysis Y Wu, MN Idros, D Feng, W Huang, T Burdyny, B Wang, G Wang, M Li, ... ACS Applied Materials & Interfaces 16 (42), 56967-56974, 2024 | 1 | 2024 |
| Understanding interaction between ionomers, particles and solvents in catalyst ink formulation for CO2 electrolysis to multicarbon products MN Idros | | 2024 |
| Photo-and electrocatalytic CO2 reduction based on Ga-doped NiTiO3 perovskite nanoparticles AK Sahu, MN Idros, S Upadhyayula, TE Rufford | | 2023 |
| Anti-flooding GDE by in-situ electroreduction of graphene oxide for CO2 electrolysis Y Wu, MN Idros, T Rufford | | 2023 |
| Elucidating the effects of solvent-ionomer interactions on copper catalyst layers for CO2 electrolysis to multicarbon products MN Idros, Y Wu, TT Duignan, LI Mengran, H Cartmill, I Maglaya, ... | | 2023 |
| Effects of Dispersion Solvent-Ionomer Interactions on Selective CO2 Electrolysis to C2+ Products over Copper-Coated Gas Diffusion Electrodes MN Idros, Y Wu, T Duignan, M Li, TE Rufford 242nd ECS Meeting (October 9-13, 2022), 2022 | | 2022 |
| Challenges and opportunities for high current density CO2 electrolysis TE Rufford, Y Wu, S Garg, M Li, Y Hu, MN Idros, G Wang | | 2022 |
| Controlling electrolyser flooding at high-current density in electrochemical CO2 conversion to CO and ethylene TE Rufford, M Li, Y Wu, MN Idros, S Garg, G Wang | | 2021 |
| The essential role of electronegativity in electrocatalysis for energy conversion M Li, S Garg, Y Wu, MN Idros, X Tian, W Zhou, TE Rufford, Z Zhu, G Wang | | 2021 |
| Interaction of choline halide ions with silver electrocatalysts for CO2 reduction TE Rufford, S Garg, M Li, MN Idros, Y Wu, G Wang | | 2021 |
| The role of electrode wettability in the electrochemical reduction of carbon dioxide MN Idros, M Li, Y Wu, TE Rufford Chemeca 2021: Advance, Disrupt and Sustain: Advance, Disrupt and Sustain …, 2021 | | 2021 |
Thomas E RuffordSchool of Chemical Engineering, The University of QueenslandEmail verificata su uq.edu.au