董兴安-老虎机

董兴安

时间：2026-03-05 点击数量：

董兴安工学博士，副教授

个人基本情况及学习工作经历：

2026.01-至今，老虎机，副教授

2023.09-2025.12，老虎机，讲师

2023.06，电子科技大学获工学博士学位

教学情况：主要承担《文献检索与调研》、《大学物理实验》、《教育研习》等教学工作。

个人简介：

九三学社社员，硕士生导师，主要从事环境与能源催化材料及物理化学过程相关研究工作，针对环境与能源催化反应中的活性位点动态演变等共性科学问题，开展了缺陷及金属位点动态调控的系列研究，并利用快速扫描原位红外光谱解析气-液-固多相光电催化反应物理化学过程。以第一或通讯作者（含共同）在Angew. Chem. Int. Ed.、Nat. Commun.、ACS Nano、Adv. Fun. Mater.、ACS Catal.、Sci. Bull.、Appl. Catal. B, Environ.等期刊发表论文20余篇，ESI高被引论文8篇，SCI总被引6400余次，H指数42，主持国家自然科学基金1项、省部级基金3项，获中国石油与化工自动化应用协会技术发明二等奖，担任DeCarbon期刊青年编委，Nano Energy、Appl. Catal. B, Environ.、Chem. Eng. J.、J. Catal.等期刊审稿人。连续入选斯坦福大学“全球前2%顶尖科学家”榜单。

主持项目：

1.国家自然科学基金青年项目，批准号：22406014，2025.01-2027.12，项目负责人

2.中国博士后科学基金第74批面上资助“地区专项支持计划”，批准号：2023MD744137，2023.09-2025.06，项目负责人

3.重庆市教委科学技术研究计划项目青年项目，批准号：KJQN202400512，2024.10-2026.09，项目负责人

4.重庆市自然科学基金面上项目，批准号：CSTB2025NSCQ-GPX0991，2025.07-2028.06，项目负责人

代表性论文（#共同一作，*通讯作者）：

2025年

[1]Xing’an Dong^#, Weidong Dai^#, Chen Yang, XiaoqianLi, Ruofei Tang*, Xian Shi*, Localized strain induced carrier separation and filtering in S-scheme MgIn₂S₄@CdS heterojunction for boosting selective CO₂photoreduction,Chemical Engineering Journal, 2025,524, 169282.

[2]Xing’an Dong^#, Weidong Dai^#, Chen Yang, Ruofei Tang*, Xin Li, Maobin Wei, Xian Shi*, Boosted photocharge separation in copper (II) porphyrin grafted high-entropy halide perovskite for selective CO₂photoreduction,Applied Surface Science, 2025,710(30), 163929.

[3]Xing’an Dong^#, Weidong Dai^#, Chen Yang, Xiaoqian Li, Ruofei Tang*, Xian Shi*, Lattice distortion engineering of (GaFeCoAlNi)O_xhigh entropy oxides for boosting piezocatalytic CO₂reduction,Materials Today Energy, 2025,53, 101993.

[4] Fuqiang Guo, Xian Shi,Xing’an Dong*, Chunyu Li, Shanshan Xu, Wendong Zhang, Weidong Dai, Wenjie He, Xin Jin, Peng Yu*, Fan Dong, Selective nitrate photoreduction to ammonia on photo-induced halogen vacancies with promoted hydrogen atom transfer,Chinese Chemical Letters, 2025, //doi.org/10.1016/j.cclet.2025.111980.

[5]Xian Shi^#, Weidong Dai^#, Xiaoqian Li, Zirui Zhu,Xing’an Dong*, Zhihao Cui*, Lattice-matched S-scheme high-entropy oxide heterojunction for efficient visible-light-driven CO₂photomethanation,Advanced Functional Materials, 2025,e11696.

[6] Xian Shi, Jing Zhang, Ruofei Tang, Weidong Dai*, Yangyang Yu,Xing’an Dong*, Lattice strain engineering in ZnGa₂O₄for selective CO₂photoreduction enhancement.Chemical Engineering Journal,2025,503, 158561.

[7] Xian Shi, Weidong Dai, Mengting Lei, Ruofei Tang, Xiaoqian Li, Yang Bai*,Xing’an Dong*, Polarization induced by chlorine defect engineering in high-entropy halide perovskite to promote CO₂photomethanation.Small Methods, 2025,9, 2402004.

[8] Xiaoyu Li, Yuying Wang, Jiahong Zou,Xing’an Dong*, Linpiao Cheng, Wenyang Fu, Yan Jiang, Guangming Jiang*, Shams Ali Baig, Efficient surface hydroxyl-to-hydroxyl radical conversion on layered double hydroxide via high-efficiency hydroxyl transformer.Journal of Colloid & Interface Science, 2025,698, 138014.

[9] Xian Shi, Weidong Dai, Chen Yang, Ruofei Tang*,Xing’an Dong*, Polarization regulated by anion engineering in bismuth-rich sulfohalides for enhanced piezocatalytic CO₂photomethanation.Materials Today Energy, 2025,52, 101942.

2024年

[1]Xing’an Dong, Xian Shi, Zhihao Cui, Weidong Dai, Fan Dong*, Ddynamic hydroxylation enhances hydrogen atom abstraction from water for nitrogen fixation revealed by isotope labeling in situ fourier-transform infrared spectroscopy.ACS Nano,2024,18(13), 9670-9677.

[2] Wendong Zhang, Ailin Jiang, Wenjie He, Wenjun Ma, Yuerui Ma, Wangxing Ai,Xing’an Dong*, Yi Wang, Peng Chen*, Fan Dong, Establishing rapid charge channel via synergism of oxygen vacancy and interfacial effect to promote stable photocatalytic NO purification.Chemical Engineering Journal2024,481, 148217.

[3] Xian Shi, Xiaoqian Li, Yang Bai*, Weidong Dai, Qin Ren,Xing’an Dong*, Internal electric field modulated by morphological control of sulfur-deficient CuS for boosted selective CO₂photoreduction,ACS Sustainable Chemistry & Engineering, 2024, 12 (1), 283-290.

[4] Xian Shi, Weidong Dai, Gang Cheng, Kaibin Zhang*,Xing’an Dong*, Dipole increase synergistic frustrated Lewis pairs induced by Sn dopant boosts ultrathin layered bismuth oxychloride for CO₂photoreduction.Chemical Engineering Journal,2024,487, 150691.

[5] Xian Shi, Weidong Dai, Xiaoqian Li, Yang Bai*, Qin Ren, Yao Lei,Xing’an Dong*, Internal electric field modulation by copper vacancy concentration of cuprous sulfide nanosheets for enhanced selective CO₂photoreduction.Journal of Energy Chemistry, 2024,91, 324-330.

[6] Xian Shi, Weidong Dai, Xiaoqian Li, Yangyang Yu, Zirui Zhu, Zhihao Cui*,Xing’an Dong*, Lattice strain in high entropy oxides promote CO₂photomethanation.Small Methods, 2024,9, 2400891.

[7] Wendong Zhang, Yuerui Ma, Ailing Jiang, Chen Yu, Jiazhen Liao,Xing’an Dong*, Wenjie He, Peng Chen*, Rapid charge transfer via anion bridge strategy for enhanced deep photocatalytic NO oxidation.Journal of Catalysis, 2025,442, 115875.

2023年及以前

[1]Xing’an Dong^#, Zhihao Cui^#, Xian Shi, Ping Yan, Zhiming Wang,Anne C. Co, Fan Dong*,Insights into dynamic surface bromide sites in Bi₄O₅Br₂for sustainable N₂photofixation,Angewandte Chemie International Edition, 2022,61, e202200937.(ESI高被引)

[2] Zhihao Cui^#,Xing’an Dong^#, Sunggu Cho, Weidong Dai, Fan Dong, Anne C. Co*, Unraveling the electrocatalytic reduction mechanism of enols on copper in aqueous media,Nature Communications, 2022, 13: 5840.

[3]Xing’an Dong, Zhihao Cui, Yanjuan Sun, Fan Dong*, Humidity-independent photocatalytic toluene mineralization benefits from the utilization of edge hydroxyls in layered double hydroxides (LDHs): A combined operando and theoretical investigation,ACS Catalysis, 2021, 11: 8132-8139.

[4]Xing’an Dong, Kaiwen Wang, Zhihao Cui, Xian Shi, Zhiming Wang, Fan Dong*, N₂photofixation promoted by in situ photoinduced dynamic iodine vacancies at step edge in Bi₅O₇I nanotubes,Nano Research, 2023, 16, 6679-6686.

[5]Xing’an Dong, Wen Cui, Hong Wang, Jieyuan Li, Yanjuan Sun, Haiqiang Wang, Yuxin Zhang, Hongwei Huang, Fan Dong*, Promoting ring-opening efficiency for suppressing toxic intermediates during photocatalytic toluene degradation via surface oxygen vacancies,Science Bulletin, 2019, 64: 669-678.

[6]Xing’an Dong, Jieyuan Li, Qian Xing, Ying Zhou, Hongwei Huang, Fan Dong*, The activation of reactants and intermediates promotes the selective photocatalytic NO conversion on electron-localized Sr-intercalated g-C₃N₄,Applied Catalysis B: Environmental, 2018, 232: 69-76.

[7]Xing’an Dong,Wendong Zhang, Yanjuan Sun, Jieyuan Li, Wanglai Cen, Zhihao Cui, Hongwei Huang, Fan Dong*, Visible-light-induced charge transfer pathway and photocatalysis mechanism on Bi semimetal@defective BiOBr hierarchical microspheres,Journal of Catalysis, 2018, 357: 41-50.(ESI高被引)

[8]Xing’an Dong, Wendong Zhang, Wen Cui,Yanjuan Sun, Hongwei Huang, Zhongbiao Wu, Fan Dong*, Pt quantum dots deposited on N-doped (BiO)₂CO₃: enhanced visible light photocatalytic NO removal and reaction pathway,Catalysis Science & Technology, 2017, 7(6): 1324-1332.

[9]董兴安,何文杰,王红,孙艳娟,董帆*,吴忠标, (BiO)₂CO₃和N掺杂(BiO)₂CO₃分级微球可见光催化氧化NO机理的原位红外光谱,科学通报, 2017, 62(22):2534-2543.

[10] Jieyuan Li^#,Xing’an Dong^#, Yanjuan Sun, Wanglai Cen, Fan Dong*, Facet-dependent interfacial charge separation and transfer in plasmonic photocatalysts,Applied Catalysis B: Environmental, 2018, 226: 269-277.

[11] Wendong Zhang^#,Xing’an Dong^#, Yi Liang, Yanjuan Sun, Fan Dong*, Ag/AgCl nanoparticles assembled on BiOCl/Bi₁₂O₁₇Cl₂nanosheets: Enhanced plasmonic visible light photocatalysis and in situ DRIFTS investigation,Applied Surface Science, 2018, 455: 236-243.

[12] Wenjun Ma^#,Xing’an Dong^#, Yun Wang^#, Wenjie He^#, Wendong Zhang*, Yi Liang, Yi Wang*, Wensheng Fu*, Jiazhen Liao, Fan Dong, Highly enhanced photocatalytic toluene degradation and in situ FT-IR investigation on designed Sn-doped BiOCl nanosheets,Applied Surface Science, 2022,578, 152002.

[13] Wendong Zhang^#, Xiaoli Liu^#,Xing’an Dong^#, Fan Dong*, Yuxin Zhang*, Facile synthesis of Bi₁₂O₁₇Br₂and Bi₄O₅Br₂nanosheets: In situ DRIFTS investigation of photocatalytic NO oxidation conversion pathway,Chinese Journal of Catalysis, 2017,38, 2030-2038.

教师赠语：

认真工作，快乐生活！

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