基本信息

         

 

何 炽

教授、博导、国家级青年人才;入选王宽诚青年学者、西安交通大学青年拔尖人才A类。主要开展大气污染控制/资源化化学、纳米功能材料、非均相热/电催化、固废处置与利用方面基础与应用研究。主持国家自然科学基金(7项)、国家重点研发计划课题2项)、中科院先导专项子课题、陕西省重点研发计划项目等40余项。

以通讯作者/第一作者Chem. Rev.、Nat. Commun.、Angew. Chem.Environ. Sci. Technol.、ACS Catal.、JACS Au、Appl Catal B等刊物上发表SCI论文270余篇(4篇入选期刊封面论文、7篇入选ESI热点论文、32篇入选ESI高引用论文),论文总引用>13000次(个人H因子68;申请授权国家发明专利52项(技术转化7项);主编参编《挥发性有机污染物催化反应过程与控制技术》、《环境科学导论》《活性焦烟气净化关键技术与工程应用》等专著教材5部。

担任环境材料与污染防治技术中心负责人、环境科学学会挥发性有机物防治专业委员会常委、臭氧污染控制专委会委员稀土学会催化专业委员会委员、环保产业协会废气净化委员会委员及Chin. Chem. Lett.J. Rare Earth.、Chem. Eng. J. Adv.、物理化学学报等期刊编委获环境保护科学技术一等奖、陕西省自然科学二等奖、陕西省科学技术二等奖、环保联合会科技进步特等奖、中国环境科学学会青年科学家奖、陕西省环境保护青年科技奖、挥发性有机物污染防治专委会首届青年学术创新奖

 

                         2024年组会安排

组会

时间

 

3.23、4.20、5.186.22、7.20

8.27、9.21、10.1911.16、12.14

 

顺序

 

9:00-12:00

污染物(VOCs/NOx/CO2)控制

 

13:00-15:00

资源小分子高值转化

 

15:00-17:00

环境化学与健康效应

 

年中

汇报

2024827

年度

总结

2025117

 

 

联系方式:

环境科学与工程系

能源与动力工程学院

chi_he@xjtu.edu.cn

兴庆校区:北四楼702
创新港校区:
19号楼-5005

工作学习经历

2018.12-至今         西安交通大学能源与动力工程学院,教授、博导

2018.12-至今         绿色氢电全国重点实验室,教授、博导

2019.09-至今         西安交通大学能源环境工程研究所负责人

2015.10-至今         西安交通大学能源与动力工程学院环境科学与工程系主任

2018.01-2023.01    挥发性有机物控制材料与技术国家工程实验室,客座研究员

2016.11-2017.11    英国卡迪夫大学催化研究所,访问学者(合作导师:Graham J. Hutchings院士

2013.08-2018.12    西安交通大学能源与动力工程学院,副教授、博导

2012.07-2013.08    中国科学院城市环境研究所,副研究员、硕导

2010.07-2012.07    中国科学院城市环境研究所,助理研究员

2007.09-2010.07    中国科学院生态环境研究中心,博士

2004.09-2007.07    西安交通大学,硕士

2000.09-2004.07    安徽建筑大学,学士

近期论文

(1) Yadi Wang, Zeyu Jiang, Yani Wu, Chaoqian Ai, Fan Dang, Han Xu, Jialei Wan, Weisheng Guan, Reem Albilali, Chi He*, Simultaneously Promoted Water Resistance and CO2 Selectivity in Methanol Oxidation over Pd/CoOOH: Synergy of Co-OH and Pd-Olatt-Co Interface, Environmental Science & Technology, 2024, 58, 18414-18425.

(2) Fan Dang, Zeyu Jiang, Yadi Wang, Jialei Wan, Chunli Ai, Mingjiao Tian, Yanfei Jian, Han Xu, Reem Albilali, Jiaguo Yu, Chi He*, Promoted Light-Alkane Oxidation Under Impurity-Contained Reality by Low-Coordinated Co-O Structure Boosted C-H Bond Activation, ACS Catalysis, 2024, 14, 14031-14042.

(3Chunli Ai, Jialei Wan, Zeyu Jiang*, Yadi Wang, Fan Dang, Yani Wu, Shouning Chai, Mingjiao Tian, Yanfei Jian, Changwei Chen, Reem Albilalic, Chi He*, Constructing Pd@Layered-CoOx/MFI Bifunctional Catalyst for Efficient Ethyl Acetate Oxidation: Boosted C=O Activation and *O Species Transformation, Environmental Science & Technology, 2024, 58, 11760-11770.

(4) Lianghui Xia, Yanfei Jian, Yujie Liu, Jingjing Wang, Jun Li, Yao Wang, Shouning Chai, Meizan Jing*, Reem Albilali, Chi He*, Boosted Light Alkane Deep Oxidation via Metal Bond Length Modulation-Induced C-C Bond Preferential Activation, Environmental Science & Technology, 2024, 58, 3472-3482.

(5) Xiao-He Liu, Tong Lu, Xinguo Jiao, Zeyu Jiang, Changwei Chen, Yadi Wang, Yanfei Jian, Chi He*, Formaldehyde Ambient-Temperature Decomposition over Pd/Mn3O4-MnO Driving by Active Sites’ Self-Tandem Catalysis, Environmental Science & Technology, 2024, 58, 1752-1762.

(6) Jingjing Wang, Zeyu Jiang, Hengyue Xu, Xinzhe Li, Yanfei Jian, Pei Su, Shouning Chai, Lianghui Xia, Mudi Ma, and Chi He*, Strengthened Catalysis over Zeolite-Confined System Triggered by Electronic Structure and Microenvironment Modulation, Angewandte Chemie International Edition, 2024, e202417618.

(7) Mingjiao Tian, Han Xu, Yaruo Zhao, Qin Yang, Zeyu Jiang, Yanfei Jian, Shouning Chai, Lu Li, Mudi Ma, Yukun Sun, Reem Albilali, Chi He*, Boosted 1,2-Dichloroethane Deep Destruction over CoRu/Al2O3 Bifunctional Catalysts via Surface Oxygen and Water Molecule Synergistic Activation, Environmental Science & Technology, 2024, 58, 19872-19882.

(8) Fawei Lin, Yongtao Li, Chujun Luan, Beibei Yan, Zeng Dan*, Guanyi Chen*, Chi He*, Surface engineering of Co-based monolithic catalysts for achieving water-promotive ozonation of dichloromethane at low temperature, Environmental Science & Technology, 2024, in press.

(9) Mudi Ma, Yutao Chen, Qiyuan Liu, Lianghui Xia, Zhangyue Xie, Yanke Yu, Junwei Xu, Changwei Chen*, Chi He*, Taming the acidity and redox property of phosphorylated Ca doped LaMnO3 for catalytic n-butylamine elimination: Breaking the see-saw effect of activity and N2 selectivity, Applied Catalysis B: Environment and Energy, 2025, 364, 124846.

(10) Han Xu, Mingjiao Tian, Yaruo Zhao, Qin Yang, Zeyu Jiang, Dong Guo, Yadi Wang, Fan Dang, Chunli Ai, Jialei Wan, Reem Albilali, Chi He*, Rationally Engineering Chromium-Titanium Bimetal Catalysts with Boosted Activity, Selectivity and Long-term Stability for Efficient Vinyl Chloride Purification, Applied Catalysis B: Environment and Energy, 2025, accepted.

(11) Hua Pan, Zhenghui Chen, Xiangbo Feng*, Xin Ling, Shijie Cao, Jun Chen, Yanfei Jian*, Chi He*, Sulfur resistance mechanism of MnOx@CeO2@MgO core-shell catalyst in simultaneous removal of NOx and chlorobenzene, Applied Catalysis B: Environment and Energy, 2025, 362, 124761.

(12) Yani Wu, Yadi Wang, Jicheng Liu, Zeyu Jiang*, Jialei Wan, Jingjing Wang, Shouning Chai, Chunli Ai, Fan Dang, Reem Albilali, Chi He*, Promoting intermediates transformation by boosting H2O dissociation over core-shell Pd@CoO Janus for acetone efficacious oxidation, Applied Catalysis B: Environment and Energy, 2024, 354, 124113.

(13) Lei Chen, Dan Ren, Xiaoke Hou, Jinping Zhang, Yangwen Wu, Peigao Duan*, Chao Li, Ching-Yu Chiange, Chi He*, Qiang Lu*, Asymmetric oxygen vacancy-enriched Mn2O3@CeO2 for NO oxidation with excellent low-temperature activity and boosting SO2-resistance, Applied Catalysis B: Environment and Energy, 2024, 340, 123202.

(14) Kunli Song, Jian-Wen Shi*, Xinya Zhou, Yuwei Gu, Jun Li, Dandan Ma, Yu Chen, Chi He*, Bo Qin, Liang Liang, Yimeng Zhang, Yonghong Cheng, Shaobin Wang*, Design of dual-ligand coordination in metal organic frameworks for breaking the seesaw effect between de-NOx activity and N2 selectivity, Applied Catalysis B: Environment and Energy, 2024, 354, 124131.
(15) Fobang Liu*, Xu Yang, Weiqi Xu, Vishal Verma*, Zhao Wang, Chun Chen, Yao He, Liu Yang, Yang Yang, Yele Sun, Chi He*, Resolving organic aerosol components contributing to oxidative potential of PM2.5 in the North China Plain,
Journal of Geophysical Research: Atmospheres, 2024, 129, e2024JD040840.

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