Publications of See Wee Chee
All genres
Journal Article (29)
1.
Journal Article
Revealing catalyst restructuring and composition during nitrate electroreduction through correlated operando microscopy and spectroscopy. Nature Materials (2025)
2.
Journal Article
24 (40), pp. 12361 - 12367 (2024)
Understanding the Growth of Electrodeposited PtNi Nanoparticle Films Using Correlated In Situ Liquid Cell Transmission Electron Microscopy and Synchrotron Radiation. Nano Letters 3.
Journal Article
30 (Suppl 1), pp. 1213 - 1214 (2024)
Operando Liquid-cell Transmission Electron Microscope Sample Holder with Bulk Reference and Counter Electrodes for Electrocatalysis Applications. Microscopy and Microanalysis 4.
Journal Article
146 (14), pp. 9665 - 9678 (2024)
Electrocatalytic Nitrate and Nitrite Reduction toward Ammonia using Cu2O Nanocubes: Active Species and Reaction Mechanisms. Journal of the American Chemical Society 5.
Journal Article
146 (12), pp. 8677 - 8687 (2024)
Enhanced Methanol Synthesis from CO2 Hydrogenation Achieved by Tuning the Cu-ZnO Interaction in ZnO/Cu2O Nanocube Catalysts Supported on ZrO2 and SiO2. Journal of the American Chemical Society 6.
Journal Article
16 (9), pp. 11552 - 11560 (2024)
Revealing the Intrinsic Restructuring of Bi2O3 Nanoparticles into Bi Nanosheets during Electrochemical CO2 Reduction. ACS Applied Materials and Interfaces 7.
Journal Article
36 (4), 2307809 (2024)
Reversible Structural Evolution of Metal-Nitrogen-Doped Carbon Catalysts During CO2 Electroreduction: An Operando X-ray Absorption Spectroscopy Study. Advanced Materials 8.
Journal Article
2 (1), pp. 311 - 323 (2024)
Operando insights into correlating CO coverage and Cu-Au alloying with the selectivity of Au NP-decorated Cu2O nanocubes during the electrocatalytic CO2 reduction. EES Catalysis 9.
Journal Article
123 (23), pp. 13374 - 13418 (2023)
Operando Electron Microscopy of Catalysts: The Missing Cornerstone in Heterogeneous Catalysis Research? Chemical Reviews 10.
Journal Article
145 (39), pp. 21465 - 21474 (2023)
Spatially and Chemically Resolved Visualization of Fe Incorporation into NiO Octahedra during the Oxygen Evolution Reaction. Journal of the American Chemical Society 11.
Journal Article
29 (Suppl 1), pp. 1302 - 1303 (2023)
Tracking the Incorporation of Fe into NiO Electrocatalysts during Reaction with Liquid Phase Electron Microscopy and Time-Resolved Elemental Mapping. Microscopy and Microanalysis 12.
Journal Article
145 (5), pp. 3016 - 3030 (2023)
Shape-Dependent CO2 Hydrogenation to Methanol over Cu2O Nanocubes Supported on ZnO. Journal of the American Chemical Society 13.
Journal Article
4 (4), 042003 (2022)
2022 Roadmap on Low Temperature Electrochemical CO2 Reduction: Mechanistic insight into the electrocatalytic reduction of CO2 via operando spectroscopy and microscopy methods. Journal of Physics: Energy 14.
Journal Article
10 (26), pp. 14041 - 14050 (2022)
Iodide-mediated Cu catalyst restructuring during CO2 electroreduction. Journal of Materials Chemistry A 15.
Journal Article
134 (20), e202112640 (2022)
Highly Stable and Reactive Platinum Single Atoms on Oxygen Plasma-Functionalized CeO2 Surfaces: Nanostructuring and Peroxo Effects. Angewandte Chemie 16.
Journal Article
61 (20), e202112640 (2022)
Highly Stable and Reactive Platinum Single Atoms on Oxygen Plasma-Functionalized CeO2 Surfaces: Nanostructuring and Peroxo Effects. Angewandte Chemie International Edition 17.
Journal Article
12, 7329 (2021)
Author Correction: Dynamic transformations of cubic copper catalysts during CO2 electroreduction and its impact on catalytic selectivity. Nature Communications 18.
Journal Article
27 (S1), pp. 52 - 53 (2021)
Understanding Structure-Property Relationships in Nanoparticle Electrocatalysts through Correlated Electron Microscopies. Microscopy and Microanalysis 19.
Journal Article
143 (19), pp. 7578 - 7587 (2021)
Selectivity control of Cu nanocrystals in a gas-fed flow cell through CO2 pulsed electroreduction. Journal of the American Chemical Society 20.
Journal Article
11 (10), pp. 6175 - 6185 (2021)
Role of the Oxide Support on the Structural and Chemical Evolution of Fe Catalysts during the Hydrogenation of CO2. ACS Catalysis