研究方向:光催化CO2还原,光催化合成氨,光催化有机合成
科研项目:
(1)永利集团高层次人才科研基金启动项目,30万,2023-2028,主持
(2)国家自然科学基金地区基金,表面吸附活化导向的Ti基MOFs纳米片设计及光催化氧化HMF定向转化调控,2024.01—2027.12,参与
(3)氮气活化导向的MOFs基材料的构筑及光催化仿生固氮机制,2023至2026,80万,参与
论著专利:
[1] Wang Z., Wang Q., Shi Y., Wang H., Kang Y., Zhu S., Ling S.*, Wu L.*, Selective photocatalytic reduction CO2 to CH4 on ultrathin TiO2 nanosheet via coordination activation. Applied Catalysis B: Environmental 288 (2021) 120000.
[2] Wang Z., Shi Y., Liu C., Kang Y., Wu L.*, Cu+–Ti3+ interface interaction mediated CO2 coordination model for controlling the selectivity of photocatalytic reduction CO2. Applied Catalysis B: Environmental 301 (2022) 120803.
[3] Wang Z., Wang H., Shi Y., Liu C., Wu L.*, Liang S.*, Surface engineering improving selective hydrogenation of p-chloronitrobenzene over AuPt alloy/SnNb2O6 ultrathin nanosheets under visible light. Chemical Engineering Science 261 (2022) 117936.
[4] Wang Z., Wang H., Shi Y., Liu C., Wu L.*, CuPd alloy decorated SnNb2O6 nanosheets as a multifunctional photocatalyst for semihydrogenation of phenylacetylene under visible light. Chemical Engineering Journal 429 (2022) 132018.
[5] Wang Z., Kang Y., Shi Y. , Liu C., Liu Y., Lin J.*, Bi J.*, Wu L.*, Selective coordination activation regulating the selectivity for photocatalytic hydrogenation of α, β-unsaturated aldehyde over Pd/MIL-100(FeaCub), pplied Catalysis B: Environmental 340 (2024).
[6] Luo Y., Wen X., Cai R., Zou G., Zhang W., Wang Z.*, Y. Song*, Improving photocatalytic selective coupling amine and alcohol over single-unit-cell Pd/BiVO4 nanosheets by surface synergistic effect, Molecular Catalysis 548 (2023) 113411.
[7] Huang X., Shi Y., Liu C., Z. Wang*, J. Bi, Jimmy C. Yu, L. Wu*. Enhanced photocatalytic nitrogen fixation on Cu2O clusters/MIL-100 (Fe) heterojunction. Applied Surface Science 640 (2023) 1–9.
[8] Wang Z., Song Y.* Surface Coordination Improved Photocatalytic Fixation of CO2 over 2D Oxide Nanosheets,Wiley‐VCH,15 (2023) 213-222.
合作交流:团队与福州大学和厦门大学具有很好的合作交流。