Dr Haifeng Qi

2025

• Li, W. et al., 2025. Inhibiting overoxidation of dynamically evolved RuO2 to achieve a win–win in activity–stability for acidic water electrolysis. Journal of the American Chemical Society 147 (12), pp.10446-10458. (10.1021/jacs.4c18300)
• Li, Y. et al., 2025. Dynamic active site evolution in lanthanum‐based catalysts dictates ethane chlorination pathways. Angewandte Chemie International Edition 64 (34) e202505846. (10.1002/anie.202505846)
• Liu, R. et al. 2025. Sputtered AlN/Al2O3 distributed Bragg reflectors on amorphous glass. Optical Materials 167 117332. (10.1016/j.optmat.2025.117332)
• Niu, S. et al., 2025. Cu-doped activated Co3O4: tandem site efficient electrocatalytic reduction of nitrate to ammonia. ChemistrySelect 10 (40) e04759. (10.1002/slct.202504759)
• Niu, S. et al., 2025. Carbide nano-islands with confined Mo–Ru sites enable sequential H2O adsorption and dissociation for accelerated hydrogen evolution. Chemical Communications 61 , pp.14677-14680. (10.1039/d5cc03521j)
• Niu, S. et al., 2025. Nickel single atoms anchored on pyridinic N dominated porous carbon for enhanced electrochemical 4‐electron oxygen reduction. ChemCatChem 17 (7) e202401934. (10.1002/cctc.202401934)
• Qi, H. 2025. Alloyed single-atom catalysts for electro- and photo- catalytic water splitting. Chemical Synthesis 5 47. (10.20517/cs.2024.181)
• Qi, H. et al. 2025. Tandem reductive amination and deuteration over a phosphorus-modified iron center.. Nature Communications 16 (1) 1840. (10.1038/s41467-024-55722-9)
• Qi, H. et al. 2025. Enhancing activation of D2O for highly efficient deuteration using an Fe-P pair-site catalyst. JACS Au 5 (6), pp.2666-2676. (10.1021/jacsau.5c00257)
• Su, K. et al., 2025. Modulating Co–Re pairs in CoRe alloy for efficient NH3 synthesis under mild conditions. ACS Applied Materials & Interfaces 17 (32), pp.45722-45732. acsami.5c08713. (10.1021/acsami.5c08713)
• Sun, Z. et al. 2025. Tailoring an Fe-Ov-Ce triggered phase-reversible oxygen carrier for intensified chemical looping CO2 splitting. Carbon Energy 7 (9) e70011. (10.1002/cey2.70011)
• Sun, Z. et al. 2025. Concerted catalysis of single atom and nanocluster enhances bio-ethanol activation and dehydrogenation. Nature Communications 16 (1) 3935. (10.1038/s41467-025-59127-0)
• Sun, Z. et al., 2025. Modulating the interfacial energy of Ni–Bi molten alloys for enhanced methane decomposition to hydrogen. ACS Catalysis 15 , pp.17333-17346. (10.1021/acscatal.5c02867)
• Wan, J. et al., 2025. Axial chlorine-induced symmetry-breaking iron single-atom catalyst for electrochemical ammonia synthesis. ACS Catalysis , pp.4507-4518. (10.1021/acscatal.4c06501)
• Zhao, E. et al., 2025. Defect engineering of TiO2 for efficient photocatalytic transfer hydrogenation with palladium as cocatalyst and water as a hydrogen source. Green Energy & Environment (10.1016/j.gee.2025.09.008)
• Zhao, G. et al., 2025. Fully exposed palladium clusters mitigate catalyst poisoning during water contaminant reduction. Water Research 285 124067. (10.1016/j.watres.2025.124067)
• Zhou, Y. et al., 2025. Ru single atom and nanoparticle tandem catalyst unlocking high-efficiency ammonia synthesis under mild conditions. Journal of the American Chemical Society 147 (34), pp.31136-31146. (10.1021/jacs.5c09736)

2024

• Liu, Y. et al., 2024. Non-noble Ni@NbOx Catalyst for Selective Hydrodehydroxylation of 5-Hydroxymethylfurfural to 5-Methylfurfural. ACS Sustainable Chemistry and Engineering 12 (44), pp.16202-16211. (10.1021/acssuschemeng.4c04684)