2013 本科，枣庄学院

2019 硕博，天津大学

2019-至今 天津理工大学讲师

电话 +86-60215704

邮箱 wh3740@163.com

研究兴趣：

气固相催化反应，单原子金属及纳米级团簇结构研究。

承担项目与发表论文：

主持国家自然科学基金青年项目一项、教育部“春晖计划”国际合作科研专项一项、横向项目一项。参与国家自然科学基金面上项目。以第一作者或通讯作者身份分别在《Nature Communications》、《ACS Catalysis》、《Applied Catalysis B: Environmental》、《Chemical Engineering Journal》等国际核心杂志发表论文7篇。

代表性论文：

1. Wang, H.^{*, ‡} et al. Surface reactive oxygen from support corrects the nominal supported metal size effect in controlling the reactivity for low-temperature CH₄/CO₂ reforming. ACS Catal. 14, 10712–10727 (2024).

2. Wang, H. et al. Surface reactive oxygen in Ni/Ce_xZr_1-xO₂ catalysts may impede the CH₄/CO₂ reforming activity by stabilizing small Ni species. Chem. Eng. J. 493, 152501 (2024).

3. Wang, H.^*, Hu, Y., Adogwa, A., Yang, M. & Lu, T.-B. The in situ growth of atomically dispersed Ni species on CeO₂ during low-temperature CH₄/CO₂ reforming. J. Mater. Chem. A 12, 23530–23540 (2024).

4. Wang, H.^* & Yang, M. Two different atomically dispersed Pt atoms supported on ceria. Inorg. Chem. 63, 20592–20599 (2024).

5. Doherty, F., Wang, H.^‡, Yang, M. & Goldsmith, B. R. Nanocluster and single-atom catalysts for thermocatalytic conversion of CO and CO₂.Catal. Sci. Technol. 10, 5772–5791 (2020).

6. Wang, H.^‡ et al. Surpassing the single-atom catalytic activity limit through paired Pt-O-Pt ensemble built from isolated Pt1 atoms. Nat. Commun.10, 3808 (2019).

7. Wang, H. et al. Single-site Pt/La-Al₂O₃stabilized by barium as an active and stable catalyst in purifying CO and C₃H₆ emissions. Appl. Catal., B 244, 327–339 (2019).