博士　研究员（校聘）
单位：成都理工大学材料与化学化工学院 应用化学系
邮箱：xiongmi@cdut.edu.cn

基本情况：
　　熊咪，女，四川巴中人，理学博士，校聘研究员，硕士生导师。2022年毕业于中科院山西煤炭化学研究所并获得博士学位，导师：覃勇研究员（杰青）、高哲研究员（优青）。2022年9月通过“珠峰引才计划”加入成都理工大学。主要研究方向为纳米材料的设计合成及其在多相催化加氢/产氢中的应用。目前，已在Nature Communications、ACS Catalysis、Chemical Science、Surfaces and Interfaces、Catalysis Science & Technology等国际期刊上发表多篇SCI学术论文，获授权专利4项。

课题组可招收化学（学硕）、化学工程（专硕）硕士研究生，欢迎感兴趣的同学通过邮件联系。

讲授课程：
本科生课程：物理化学、物理化学实验、化学前沿
研究生课程：矿产物理化学

人才培养：
指导23级本科生团队获批国家级大创项目1项 (2025)
指导22级本科生李扬保研四川大学（2025）
指导学生获第三届四川省⼤学生分析检测实验竞赛三等奖（2024）

研究领域：
纳米催化材料设计与合成、催化反应机理研究

主要科研项目：
[1] 国家自然科学基金青年科学基金项目（22302022），30万，主持；
[2] 四川省自然科学青年科学基金项目（24NSFSC4428），10万，主持；
[3] 成都理工大学“珠峰引才计划”科研启动基金，15万，主持。

主要学术论文：
1. Hui Yun, Jiao Feng, Wanying Peng, Mi Xiong*, Promoted hydrogen activation and spillover over Pt/Co3O4 by facet engineering of Co3O4 for enhanced catalytic hydrogenation. Chemical Science, 2026, Accept. (IF = 7.5, 一区TOP)
2. Mi Xiong*, Yang Li, Lemeng Sun, Qingmin Hu,* , Zhengxing Lv, Shuangfeng Xing,Hui Yun, Shaocheng Zhang, Zhe Gao*, Magnetically recyclable bimetallic Pt-Co/CoO catalyst derived through hydrogen spillover for fast hydrogen release through ammonia borane hydrolysis. Surfaces and Interfaces, 2025, 62, 106242. (IF = 6.3, 二区)
3. Jinzheng Wang, Zhenliang Dong, Liwen Mao, Peng Huang, Tiange Gao, Ge Song, Linpei Dong, Jiayi Li, Jie Pan, Mi Xiong*, Qingmin Hu*, Jiaqiang Xu*, Tuning the location of nanostructure on the confined nanocoils to enhance regulation of gas sensing selectivity. Sensors & Actuators: B. Chemical, 2025, 430, 137283. (IF = 7.7, 一区TOP)
4. Mi Xiong, Zhe Gao*, Yong Qin*, et al., In situ tuning of electronic structure of catalysts using controllable hydrogen spillover for enhanced selectivity. Nature Communications, 2020, 11, 4773. (IF = 17.7, 一区TOP, Editors’ Highlights)
5. Mi Xiong, Zhe Gao*, Yong Qin*, Spillover in heterogeneous catalysis: new insights and opportunities. ACS Catalysis, 2021,11, 3159-3172. (IF = 13.7, 一区TOP, Highly Cited Paper)
6. Mi Xiong, Yong Qin, Zhe Gao*, et al., Engineering of platinum-oxygen vacancy interfacial sites in confined catalysts for enhanced hydrogenation selectivity. Catalysis Science & Technology, 2022, 12, 2411-2415. (IF = 6.2, 二区)
7. Shuangfeng Xing, Mi Xiong, Shichao Zhao, Bianqin Zhang, Yong Qin*, Zhe Gao*, Improving the Efficiency of Hydrogen Spillover by an Organic Molecular Decoration Strategy for Enhanced Catalytic Hydrogenation Performance, ACS Catalysis, 2023, 13, 4003-4011. (IF = 13.7, 一区TOP)
8. Zhe Gao*, Guofu Wang, Tingyu Lei, Zhengxing Lv, Mi Xiong, Yong Qin*, et al. Enhanced hydrogen generation by reverse spillover effects over bicomponent catalysts. Nature Communications, 2022, 13, 118. (IF = 17.7, 一区TOP, Editors’ Highlights)
9. Shuangfeng Xing, Zhe Gao*, Shichao Zhao, Mi Xiong, Yong Qin*, et al. Amphiphilic confined Pt-based nanocatalysts produced by atomic layer deposition with enhanced catalytic performance for biphasic reactions. Green Chemistry, 2021, 23, 8116-8123. (IF = 11.0, 一区TOP)
10. Shuangfeng Xing, Zhe Gao*, Zhengxing Lv, Shichao Zhao, Mi Xiong, Yong Qin*, et al. Precise regulation of the wettability of Pt/CNTs by atomic layer deposition-based ozone pulse strategy for enhanced catalytic hydrogenation performance in aqueous phase. Carbon, 2022, 188, 385-392. (IF = 11.3, 二区TOP)
11. Bianqin Zhang, Zhiwei Wu, Shuangfeng Xing, Jianyuan Zhang, Shichao Zhao, Mi Xiong, Jing Luo, Yong Qin*, Zhe Gao*, Small-Molecule Modification Provides Pt Nucleation Sites for Enhanced Propane Dehydrogenation Performance, The Journal of Physical Chemistry C, 2023, 127, 5754-5762.
12. Jianyuan Zhang, Shuangfeng Xing, Shichao Zhao, Mi Xiong, Zhe Gao*, et al. Highly dispersed CoPx nanoparticles supported on carbon cloth for the enhanced catalytic performance of methanol electro-oxidation. Journal of Fuel Chemistry and Technology, 2022, 50, 1270-1277.

申请专利：
[1] 覃勇，熊咪，高哲，邢双凤，一种负载型多相催化剂及其制备方法和应用，ZL201910371246.2.
[2] 覃勇，邢双凤，高哲，熊咪，一种限域结构双亲性纳米催化剂及其制备方法和应用，ZL202010191170.8.
[3] 覃勇, 王国富, 高哲, 赵世超, 熊咪, 邢双凤, 张变琴，一种原子层沉积-X射线吸收精细结构原位表征样品池，ZL202221443104.6.
[4] 熊咪，孙乐猛，云慧，程唯益，一种利用氢溢流原位合成PtCo双金属磁性纳米催化剂高效催化氨硼烷水解产氢的方法，ZL 2024 1 0625222.6.