教育经历：

2019.9-2023.6，厦门大学无机化学专业，博士

工作经历：

2023.10至今，宁夏大学材料与新能源学院，教师

研究领域：

高分散型催化剂的精准控制制备以及其在催化小分子转化为高附加值燃料方面的应用

学术成果：

[代表性论文]：

1. Yang, T^†.; Mao, X^†.; Zhang, Y.; Wu, X.; Wang, L.; Chu, M.; Pao, C.-W.; Yang, S.; Xu, Y.; Huang, X., Coordination tailoring of Cu single sites on C₃N₄realizes selective CO₂hydrogenation at low temperature. Nat. Commun.2021, 12 (1), 6022.

2. Yang, T^†.; Yang, C^†.; Le, J.; Yu, Z.; Bu, L.; Li, L.; Bai, S.; Shao, Q.; Hu, Z.; Pao, C.-W.; Cheng, J.; Feng, Y.; Huang, X., Atomically isolated Pd sites within Pd-S nanocrystals enable trifunctional catalysis for direct, electrocatalytic and photocatalytic syntheses of H₂O₂. Nano Res.2022, 15 (3), 1861-1867.

3. Yang, T^†.; Zhang, H^†.; Zhan, C^†.; Liang, L.; Xu, Y.; Ruan, P.; Zhang, Y.; Li, J.; Wang, L.; Lv, X.; Yang, S.; Pao, C.-W.; Huang, X., Strong synergy between single atoms and single-atom alloys enables active and selective H₂O₂synthesis. Chem Catal.2022,2 (12), 3607-3620.

4. Yang, T^†.; Lin, L^†.; Lv, X.; Yang, H.; Feng, H.; Huang, Z.; Li, J.; Pao, C.-W.; Hu, Z.; Zhan, C.; Xu, Y.; Zheng, L.-S.; Jiao, F.; Huang, X., Interfacial Synergy between the Cu Atomic Layer and CeO₂Promotes CO Electrocoupling to Acetate.ACS Nano2023,17(9), 8521-8529.

5. Peng, H^†.,Yang, T^†., Lin, H., Xu, Y., Wang, Z., Zhang, Q., Liu, S., Geng, H., Gu, L., Wang, C., Fan, X., Chen, W., Huang, X., Ru/In Dual-Single Atoms Modulated Charge Separation for Significantly Accelerated Photocatalytic H₂Evolution in Pure Water. Adv. Energy Mater.2022, 12, 2201688.