2004/09–2010/03：天津大学化工学院，环境化工专业，硕博连读，导师：刘昌俊教授 (长江学者、国家杰青 、英国皇家化学会会士)

2008/01–2009/06：美国南伊利诺伊大学化学系，联合培养博士，导师：葛庆峰教授 

2009/03–2009/06：美国太平洋西北国家实验室，访问学生，导师：梅东海教授

2000/09–2004/07：河北工业大学化工学院，化学工程与工艺专业，工学学士

2020/06–至今：上海交通大学化学化工学院，研究员

2018/05–2020/05：上海交通大学电子信息与电气工程学院，长聘教轨副教授

2014/09–2018/04：合肥工业大学化学与化工学院，研究员

（1）催化反应工程：聚焦“反应物在催化剂表面的吸附”这一深刻影响转化率、反应路径、反应速率、产物分布等的催化反应关键步骤，围绕“催化剂表面反应物吸附的内在机制”以及“ 催化剂结构影响反应物吸附的规律”等关键科学问题，采用实验与理论模拟相结合的研究手段，通过认识、调控和利用吸附指导催化剂设计、制备和应用，揭示了催化剂与反应物之间的电子传输驱动反应物吸附的机制，阐明了催化剂结构限域电子传输进而强化反应物吸附的规律，建立起基于电子传输机制的精准调控反应物吸附的方法，构筑出系列高性能催化剂，显著提升了CH₄重整、CO₂加氢、CO加氢、光/电催化水分解制氢、葡萄糖氧化、汽油/柴油/渣油加氢等反应的效率。

（2）低温等离子体化工：低温等离子体由气体电离产生，独特的低温性质使低温等离子体在高效完成工作任务的同时可很好保护材料、电子器件、装备、生物体等原有优势结构和性能不受伤害。我们将“三传一反”等化工学科理论与低温等离子体紧密结合，围绕“低温等离子体设备内的传质和反应机制”这一关键科学问题以及“低温等离子体设备如何可靠放大”这一关键技术难题，揭示了低温等离子体设备内的传质和反应机制，提出了电极平行错位排布新技术以及气体交错循环流动新策略，开发出系列不同体积的低温等离子体设备，实现了设备的规模化生产和应用，应用领域包括化工过程强化、材料加工合成与表面改性、电子器件精细加工、军事装备/航天器防护镀膜、疾病靶向治疗、细菌病毒消杀等。

（1）国家重点研发计划（2022YFA1207503），在研，子课题负责人。

（2）国家自然科学基金面上项目（22078193），在研，主持。

（3）国家自然科学基金优秀青年基金（21922807），已结题，主持。

（4）国家自然科学基金石油化工联合基金（U1662138），已结题，主持。

（5）国家自然科学基金青年基金（21503062），已结题，主持。

（6）先进催化材料与反应工程安徽省科研团队提升计划，已结题，主持。 

以第一/通讯在Angew. Chem. Int. Ed.、J. Am. Chem. Soc.、AIChE J.、Ind. Eng. Chem. Res.、Chem. Eng. Sci.等化学/化工领域重要学术期刊发表英文论文75篇、中文学术论文2篇，以合作作者在Science、Nat. Commun.等学术期刊参与发表英文论文35篇，参与撰写英文专著/教材1部《Advances in CO₂ Conversion and Utilization》。代表性学术论文（第一/通讯）如下：

(48) Xin-Yu Meng, Jin-Jin Li*, Peng Liu, Mingyu Duan, Jing Wang, Yin-Ning Zhou*, Yongbing Xie, Zheng-Hong Luo, Yun-Xiang Pan*, Long-term stable hydrogen production from water and lactic acid via visible-light-driven photocatalysis in a porous microreactor. Angew. Chem. Int. Ed. 2023, e202307490.

(47) Peng Liu, Yu-Long Men*, Xin-Yu Meng, Chong Peng*, Yiyi Zhao, Yun-Xiang Pan*, Electronic interactions on platinum/(metal-oxide)-based photocatalysts boost selective photoreduction of CO₂ to CH₄. Angew. Chem. Int. Ed. 2023, e202309443.

(46) Peng Liu, Xuhui Zou, Xin-Yu Meng, Chong Peng*, Xi Li, Yangang Wang*, Fengyong Zhao, Yun-Xiang Pan*. Tuning product selectivity of CO₂ hydrogenation by OH groups on Pt/g-AlOOH and Pt/g-Al₂O₃ catalysts. AIChE J. 2023, 69, e18016.

(45) Peng Liu, Lin Niu, Yu-Long Men, Chong Peng*, Zheng Liu*, Xin-Yu Meng, Yun-Xiang Pan*. Overturning photoreduction product of CO₂ by defect- and COOH-functionalized multi-wall carbon nanotubes. Appl. Catal. B: Environ. 2023, 320, 121985.

(44) Yuxiang Yang, Yun-Xiang Pan*, Xin Tu*, Chang-Jun Liu*, Nitrogen doping of indium oxide for enhanced photocatalytic reduction of CO₂ to methanol. Nano Energy 2022, 101, 107613.

(43) Hongmin Ma, Yiyi Zhao, Xingxing Li*, Qiang Liao, Yibao Li*, Dingfeng Xu, Yun-Xiang Pan*, Efficient removal of Pb²⁺ from water by bamboo-derived thin-walled hollow ellipsoidal carbon-based adsorbent. Langmuir 2022, 38, 12179−12188.

(42) Chong Peng, Peng Liu, Zhiming Zhou*, Xiangchen Fang, Yun-Xiang Pan*, Detailed understanding on thermodynamic and kinetic features of phenanthrene hydroprocessing on Ni-Mo/HY catalyst. AIChE J. 2022, 68, e17831.

(41) Binran Zhao, Xujun Wang, Peng Liu, Yiyi Zhao, Yu-Long Men, Yun-Xiang Pan*, Visible-light-driven photocatalytic H₂ production from H₂O boosted by hydroxyl groups on alumina. Ind. Eng. Chem. Res. 2022, 61, 6845–6858.

(40) Yu-Long Men, Peng Liu, Yi Liu, Xin-Yu Meng, Yun-Xiang Pan*, Noble-metal-free WO₃-decorated carbon nanotubes with strong W–C bonds for boosting an electrocatalytic glucose oxidation reaction. Ind. Eng. Chem. Res. 2022, 61, 4300–4309.

(39) Zhenhui Lv, Peng Liu, Yiyi Zhao, Chong Peng*, Xin-Yu Meng, Yun-Xiang Pan*, Visible-light-driven photocatalytic H₂ production from H₂O boosted by anchoring Pt and CdS nanoparticles on a NaY zeolite. Chem. Eng. Sci. 2022, 255, 117658.

(38) Xin-Yu Meng, Chong Peng, Jinping Jia, Peng Liu, Yu-Long Men, Yun-Xiang Pan*, Recent progress and understanding on In₂O₃-based composite catalysts for boosting CO₂ hydrogenation. J. CO₂ Util. 2022, 55, 101844.

(37) Binrong Li, Zhiwei Guo, Yonghai Feng*, Minjia Meng*, Yun-Xiang Pan*, Yingping Zhang. Boosting photosynthetic H₂O₂ of polymeric carbon nitride by layer configuration regulation and fluoride–potassium double-site modification. ACS Appl. Mater. Interfaces 2022, 14, 43328-43338.

(36) Binran Zhao, Yiyi Zhao, Peng Liu, Yulong Men, Xinyu Meng, Yun-Xiang Pan*, Progress and understanding on catalysts with well-defined interface for boosting CO₂ conversion. Chin. J. Struct. Chem. 2022, 41, 41324-41333.

(35) Yi Liu, Peng Liu, Yu-Long Men, Yibao Li*, Chong Peng, Shibo Xi, Yun-Xiang Pan*, Incorporating MoO₃ patches into a Ni oxyhydroxide nanosheet boosts the electrocatalytic oxygen evolution reaction. ACS Appl. Mater. Interfaces 2021, 13, 26064–26073.

(34) 彭冲，刘鹏，胡永康，肖文德，潘云翔*, 低温等离子体构筑高效Ni 基催化剂进展。《化工进展》 2021, 40, 3553-3563.

(33) Yun-Xiang Pan*, Dang-Guo Cheng*, Zhou-Jun Wang*, Zhao Wang*, Hydrogenation of CO₂ in the absence of noble metals. Greenhouse Gases-Science and Technology 2021, 11, 1169-1170.

(32) Xingcui Peng, Xuezhong Nie, Lei, Zhang, Taiping Liang, Yi Liu, Peng Liu, Yu-Long Men, Lin Niu, Jian Zhou, Daxiang Cui and Yun-Xiang Pan*, Carbon-coated tungsten oxide nanospheres triggering flexible electron transfer for efficient electrocatalytic oxidation of water and glucose. ACS App. Mater. Interfaces 2020, 12, 56943-56953.

(31) Yu-Long Men, Peng Liu, Xingcui Peng, Yun-Xiang Pan*, Efficient photocatalysis triggered by thin carbon layers coating on photocatalysts: recent progress and future perspectives. Sci. China Chem. 2020, 63, 1416-1427.

(30) Lei Zhu#, Yi Liu#, Xingcui Peng, Yibao Li*, Yu-Long Men, Peng Liu, Yun-Xiang Pan*, Noble-metal-free CdS nanoparticle-coated graphene oxide nanosheets favoring electron transfer for efficient photoreduction of CO₂. ACS App. Mater. Interfaces 2020, 12, 12892-12900.

(29) Qianqian Wang, Peng Liu, Yi Liu, Xingcui Peng, Yu-Long Men, Yi-Bao Li, Yun-Xiang Pan*, Noble metal-free Co₉S₈ and NiS composite nanosheets for enhanced electrocatalytic oxygen evolution reaction. Ind. Eng. Chem. Res. 2019, 58, 22977-22983.

(28) Yu-Long Men, Yi Liu, Qianqian Wang, Zheng-Hong Luo, Shuai Shao, Yi-Bao Li, Yun-Xiang Pan*, Highly dispersed Pt-based catalysts for selective CO₂ hydrogenation to methanol at atmospheric pressure. Chem. Eng. Sci. 2019, 200, 167-175.

(27) Fan Zhang, Hua-Qiang Zhuang, Wenming Zhang, Jun Yin, Fu-Hu Cao*, Yun-Xiang Pan*, Noble-metal-free CuS/CdS photocatalyst for efficient visible-light-driven photocatalytic H₂ production from water. Catal. Today 2019, 330, 203-208.

(26) Yun-Xiang Pan*, Hua-Qiang Zhuang, Hui Ma, Jin Cheng, Jie Song*, Tungsten carbide hollow spheres flexible for charge separation and transfer for enhanced visible-light-driven photocatalysis. Chem. Eng. Sci. 2019, 194, 71-77.

(25) Sha Li, Qianqian Wang, Xiaoliang Yan*, Hua-Qiang Zhuang, Chen Yuan, Junpeng Feng, Meijun Wang, Ruifeng Li, Wenyang Li, Yun-Xiang Pan*, Al₂O₃ support triggering highly efficient photoreduction of CO₂ with H₂O on noble-metal-free CdS/Ni₉S₈/Al₂O₃, Appl. Catal. B: Environ. 2019, 240, 174-181.

(24) Xiaoliang Yan*, Tong Hu, Peng Liu, Sha Li, Binran Zhao*, Qian Zhang, Weiyong Jiao, Shuai Chen, Pengfei Wang, Jingjun Lu, Liming Fan, Xiaonan Deng, Yun-Xiang Pan*, Highly efficient and stable Ni/CeO₂-SiO₂ catalyst for dry reforming of methane: Effect of interfacial structure of Ni/CeO₂ on SiO₂. Appl. Catal. B: Environ. 2019, 246, 221-231.

(23) Yu-Long Men, Ya You, Yun-Xiang Pan*, Hongcai Gao, Yang Xia, Dang-Guo Cheng, Jie Song, Da-Xiang Cui, Nan Wu, Yutao Li, Sen Xin*, John B. Goodenough*, Selective CO evolution from photoreductin of CO₂ on a metal-carbide-based composite catalyst. J. Am. Chem. Soc. 2018, 140, 13071-13077.

(22) Xiaoliang Yan*, Chen Yuan, Jiehua Bao, Sha Li, Daizong Qi, Qianqian Wang, Binran Zhao, Tong Hu, Liming Fan, Binbin Fan, Ruifeng Li*, Franklin Tao, Yun-Xiang Pan*, Ni-based catalyst with enhanced Ni-support interaction for highly efficient CO methanation. Catal. Sci. Technol. 2018, 8, 3474-3483.

(21) Fan Zhang, Hua-Qiang Zhuang, Jie Song, Yu-Long Men, Yun-Xiang Pan*, Shu-Hong Yu*, Coupling cobalt sulfide nanosheets with cadmium sulfide nanoparticles for highly efficient visible-light-driven photocatalysis. Appl. Catal. B: Environ. 2018, 226, 103-110.

(20) Yun-Xiang Pan*, Jun-Bao Peng, Sen Xin, Ya You*, Yu-Long Men, Fan Zhang, Ming-Yu Duan, Yu Cui, Zheng-Qing Sun, Jie Song*, Enhanced visible-light-driven photocatalytic H₂ evolution from water on noble-metal-free CdS-nanoparticle-dispersed Mo₂C@C nanospheres, ACS Sustain. Chem. Eng. 2017, 5, 5449-5456.

(19) Yun-Xiang Pan, Ya You, Sen Xin*, Yutao Li, Gengtao Fu, Zhiming Cui, Yu-Long Men, Feifei Cao, Shu-Hong Yu*, John B. Goodenough*, Photocatalytic CO₂ reduction by carbon-coated indium-oxide nanobelts. J. Am. Chem. Soc. 2017, 139, 4123-4129.

(18) Xiaoliang Yan, Sha Li*, Jiehua Bao, Nan Zhang, Binbin Fan, Ruifeng Li, Xuguang Liu, Yun-Xiang Pan*, Immobilization of highly dispersed Ag nanoparticles on carbon nanotubes using electron-assisted reduction for antibacterial performance. ACS Appl. Mater. Interfaces 2016, 8, 17060-17067.

(17) Yun-Xiang Pan*, Zhengqing Sun, Huaiping Cong, Yu-Long Men, Sen Xin, Jie Song*, Shu-Hong Yu*, Photocatalytic CO₂ reduction highly enhanced by oxygen vacancy on Pt-nanoparticle-dispersed gallium oxide. Nano Res. 2016, 9, 1689-1700.

(16) Yun-Xiang Pan, Tianhua Zhou, Jianyu Han, Jindui Hong, Yabo Wang, Wei Zhang*, Rong Xu*, CdS quantum dots and tungsten carbide supported on anatase–rutile composite TiO₂ for highly efficient visible-light-driven photocatalytic H₂ evolution from water. Catal. Sci. Technol. 2016, 6, 2206-2213.

(15) Yun-Xiang Pan*, Huaiping Cong, Yu-Long Men, Sen Xin, Zhengqing Sun, Chang-Jun Liu*, Shu-Hong Yu*, Peptide self-assembled biofilm with unique electron transfer flexibility for highly efficient visible-light-driven photocatalysis. ACS Nano 2015, 9, 11258-11265.

(14) 潘云翔，孙正庆，段明宇，刘昌俊*, 冷等离子体诱导生物分子自组装制备生物材料研究进展。《化工学报》 2015, 66, 2824-2830.

(13) Yun-Xiang Pan, Huaqiang Zhuang, Jindui Hong, Zheng Fang, Hai Liu, Bin Liu, Yizhong Huang and Rong Xu*, Cadmium sulfide quantum dots supported on gallium and indium oxide for visible-light-driven hydrogen evolution from water. ChemSusChem 2014, 7, 2537-2544.

(12) Yun-Xiang Pan, Chang-Jun Liu*, Shuai Zhang, Yue Yu and Mingdong Dong*, 2D oriented self-assembly of peptide induced by hydrated electrons. Chem. Eur. J. 2012, 18, 14614-14617.

(11) Yun-Xiang Pan, Donghai Mei, Qingfeng Ge* and Chang-Jun Liu*, Hydrogen adsorption on Ga₂O₃ surface: A combined experimental and computational study. J. Phys. Chem. C 2011, 115, 10140-10146.

(10) Yun-Xiang Pan, Pingyu Kuai, Liu Yuan, Qingfeng Ge and Chang-Jun Liu*, Promotion effects of Ga₂O₃ on CO₂ adsorption and conversion over a SiO₂-supported Ni catalyst. Energy Environ. Sci. 2010, 3, 1322-1325.

(9) Yun-Xiang Pan, Chang-Jun Liu* and Qingfeng Ge*, Effect of surface hydroxyls on selective CO₂ hydrogenation over Ni₄/γ-Al₂O₃: A DFT study. J. Catal. 2010, 272, 227-234.

(8) Yun-Xiang Pan, Chang-Jun Liu*, Donghai Mei and Qingfeng Ge*, Effects of hydration and oxygen vacancy on CO₂ adsorption and activation on Ga₂O₃(100): A DFT study. Langmuir 2010, 26, 5551-5558.

(7) Yun-Xiang Pan, Chang-Jun Liu*, Tomasz S. Wiltowski, and Qingfeng Ge*, CO₂ adsorption and activation over Al₂O₃-supported transition metal dimers: A DFT study. Catal. Today 2009, 147, 68-76.

(6) Yun-Xiang Pan, Chang-Jun Liu* and Peng Shi, Coke resistant Ni/SiO₂ catalyst for carbon dioxide reforming of methane. J. Power Sources 2008, 176, 46-53.

(5) Yun-Xiang Pan, Chang-Jun Liu* and Qingfeng Ge*, Adsorption and protonation of CO₂ on partially hydroxylated Al₂O₃ surfaces: A DFT study. Langmuir 2008, 24, 12410-12419.

(4) Yun-Xiang Pan, Chang-Jun Liu* and Lan Cui, Temperature-programmed studies of coke resistant Ni catalysts for CO₂ reforming of methane. Catal. Lett. 2008, 123, 96-101.

(3) Yun-Xiang Pan, Chang-Jun Liu* and Peng Shi, The cleavage of the methane C-H over PdO/H-BEA: A DFT study. Appl. Surf. Sci. 2008, 254, 5587-5593.

(2) Yun-Xiang Pan, You Han and Chang-Jun Liu*, Pathways for steam reforming of dimethyl ether under cold plasma conditions: A DFT study. Fuel 2007, 86, 2300-2307.

(1) Yun-Xiang Pan and Chang-Jun Liu*, DFT study on pathways of partial oxidation of DME under cold plasma conditions. Fuel Process. Tech. 2007, 88, 967-976.

（1）一种等离子体一步法低温制备碳化物材料的方，已授权，ZL202110836039.7，发明专利。

（2）一种低温等离子体还原溶液中贵金属离子的装置，已授权，ZL202110825791.1，发明专利。

（3）一种富含氧空位的碳掺杂氧化钨空心微球及其制备和应用，已授权，ZL202010815852.1，发明专利。

（4）一种等离子体去胶装置，已授权，ZL202010233331.5，发明专利。

（5）一种双金属硫化物复合电催化剂及其制备方法与应用，已授权，ZL201911007265.3，发明专利。

（6）利用冷等离子体制备非贵金属碳化钼催化剂的方法，已授权，ZL201610930909.6，发明专利。

（1）《化工进展》编委

（2）《石油化工高等学校学报》编委

（3）英文期刊Chinese Journal of Structural Chemistry青年编委

（4）英文期刊 Green Chemical Engineering青年编委

（5）英文期刊 FirePhysChem青年编委

（6）英文期刊 Greenhouse Gases: Science and Technology客座编辑

（7）中国感光学会青年理事

（8）中国化工学会石油化工专委会委员

（1）第十三届侯德榜化工科学技术奖-青年奖（2021年）

（2）国家优秀青年基金获得者（2019年）

（3）B. Eliasson Award（等离子体领域奖项）（2018年）

（4）天津市自然科学奖三等奖（2017年，排名第三）

（5）合肥工业大学2016-2017学年优秀青年标兵：教书育人标兵（2017年）

（6）"全国百篇优秀博士学位论文"提名奖（2012年）

（7）天津市优秀博士学位论文（2012年）

（8）天津大学优秀博士学位论文（2010年）

本科生课程：《化工原理》、《多相催化》

研究生课程：《高等化工热力学》、《多相催化》、《绿色化工》

（1）第十三届上海市大学生化工设计竞赛一等奖“优秀指导教师”（2022年）

（2）第二届全国大学生等离子体科技创新竞赛二等奖（指导教师）（2022年）

（3）第十六届全国大学生化工设计竞赛二等奖（指导教师）（2022年）

（4）2022年华东赛区大学生化工设计竞赛一等奖（指导教师）（2022年）

（5）第四届全国“互联网+化学反应工程”课模设计大赛三等奖（指导教师）（2021年）

（1）欢迎具有化工、化学、材料背景的同学报考实验室硕士和博士研究生。

（2）欢迎本科生及访问学生到课题组参与研究课题。