王青月

王青月 博士     

WANG Qingyue (Gloria), Ph.D.

职务：特聘研究员

研究所：特种聚合物研究所

研究方向（关键字）：动态现场原位研究（Operando Investigation）

环境催化 (Environmental Catalysis)

废弃聚合物资源化 (Upcycling of Plastic Waste)

邮箱：qingyuewang@zju.edu.cn

个人宣言：Catalysts are like people: it is the defects which make them interesting.

个人简介

王青月（1992-），黑龙江人。

2014年本科毕业于吉林大学材料科学与工程学院，无机非金属材料工程系，获学士学位；

2018年博士毕业于香港科技大学（HKUST）化学与生物分子工程学系，获博士学位，主要从事挥发性有机污染物催化降解、低维催化材料及缺陷工程调控；2019年起在香港科技大学（HKUST）从事博士后研究工作，深入多领域环境催化，利用异价取代催化剂突破催化反应低温极限。

于2016年~2020年多次赴西班牙国家研究院-催化与石油研究所（CSIC-ICP）做访问研究，师从动态现场原位(operando)概念提出者及领域奠基人Miguel A. Bañares教授，专注于催化反应动态过程operando装置设计，利用原位拉曼等光谱学技术与在线定量分析手段耦合，深入反应机理，针对性研发高效催化材料。

2020年底加入浙江大学衢州研究院，任特聘研究员，浙江大学硕士生导师。入选市“新115人才工程”第三层次，连续多年获得研究院先进工作者，2022年获浙江大学衢州两院“杰出青年学者”，2023年获“城市青春合伙人”称号（全市各行业35岁以下共12位）。致力于废弃聚烯烃低温定向高值转化、聚合过程动力学监测及相关operando反应器设计及机理解析方法研究。

学术成果

王青月博士致力于环境催化及机理方面的基础研究。通过反应过程的动态现场原位(operando)解析，提高催化性能，指导催化剂理性设计。发表SCI高水平期刊论文20余篇，引用500余次。以第一或通讯作者发表了Journal of American Chemistry Society封面文章、Angewandte Chemie International Edition内封面文章（Hot Paper）、Small内封面文章、 Journal of Catalysis、 Applied Catalysis B: Environmental、Chemical Engineering Journal、Catalysis Today等，申请中外专利10余件。相关科研成果先后被权威综述期刊Chem. Soc. Rev.（2021,50,3519-3564）、Chem. Sci.（2020,11,5369-5403）等重点点评道，同时也被搜狐网、纳米人、研之成理、催化计等公众号热点报道。

先后主持国家自然科学基金-青年项目、巴斯夫(BASF)委托项目等10余项；参与国家自然科学基金-重大项目、国家自然科学基金-国际（地区）联合基金、国家重点研发计划-青年科学家项目等。多次参加国际化学及化工领域盛会ACS及AIChE会议作口头报告，长期受邀担任Applied Catalysis B: Environment, Applied Catalysis A: General, Chemical Engineering Journal，Energy& Fuel等SCI期刊的审稿人。目前担任SCI期刊Frontier in Physics评审编辑、全球华人化工学会青年论坛组委成员等。

代表论文

[1] Q. Zhou^#, D. Wang^#, Q. Wang*, K. He,  K.H. Lim, X. Yang, W.-J. Wang, B.-G. Li, P. Liu*, “Mechanistic Understanding of Efficient Polyethylene Hydrocracking over Two-Dimensional Platinum-Anchored Tungsten Trioxide”, Angew Chem. Int. Ed., 62 (2023), e202305644. (Hot Paper)

[2] C. Bao, A.S. Lotina*, M. Niu, R. Poterla, K.H. Lim, P. Liu, W.-J. Wang, M.A. Bañares, Q. Wang*, “Microwave-associated Chemistry in Environmental Catalysts for Air Pollution Remediation: A Review”, Chem. Eng. J., 466 (2023), 142902. 

[3] Q. Wang, Y. Li, A.S. Lotina, W. Han, R. Portela, R. Wang, M.A. Bañares*, K.L. Yeung*, “An Operando Investigation of Toluene Oxidation over 1D Pt@CeO₂ Derived from Pt Cluster-containing MOF”, J. Am. Chem. Soc., 143(1) (2021), 196-205 (Supplementary Cover).

[4] Q. Zhou, K. He, X. Wang, K.H. Lim*, P. Liu*, W.-J. Wang, Q. Wang*, “Investigation on the redox/acidic features of bimetallic MOF-derived CeMOx catalysts for low-temperature NH3-SCR of NOx”, Appl. Catal. A: Gen., 643 (2022) 118796.

[5] K. He, Q. Wang*, J. Wei*, “A Robust Cu Catalyst for Low-temperature CO Oxidation in Flue Gas: Mitigating Deactivation via Co-doping”, Catal. Lett., 151 (2021), 2302-2312.

[6] K. He, Q. Wang*, “Activation of Pt Nanoclusters on TiO2 via Tuning the Metallic Sites to Promote Low-Temperature CO Oxidation”, Catalysts, 11(11) (2021), 1280.

[7] Y. Li, W. Han, R. Wang, L.T. Weng, A.S. Lotina, M.A. Bañares, Q. Wang*, K.L. Yeung*, “Performance of an Aliovalent-substitued CoCeO_x catalyst from Bimetallic MOF for VOC Oxidation in Air”, Appl. Catal. B: Environ 275 (2020) 119121.

[8] Q. Wang, Z. Li, M.A. Bañares, L.T. Weng, Q. Gu, J. Price, W. Han*, K.L. Yeung*, “A Novel Strategy to High-Performance Aliovalent-subsituted Catalyst: 2D Bimetallic MOF-derived CeCuO_x Microsheets”, Small (2019)：1903525 (Inside Cover).

[9] Q. Wang, K.L. Yeung*, M.A. Bañares*, “Ceria and its related materials for VOCs catalytic combustion: A review”, Catal. Today 356 (2019) 141-154.

[10] Q. Wang, K.L. Yeung*, M.A. Bañares*, “Operando Raman-online FTIR Investigation of Ceria, Vanadia/Ceria and Gold/Ceria Catalysts for Toluene Elimination”, J. Catal., 364 (2018) 80-88.

专利成果

[1] 王青月，周启民，林嘉河，刘平伟，王文俊,“一种测定退役聚合物催化转化高值利用优选条件的原位光谱学方法”，CN202211512327.8 (2022)

[2] 刘平伟，周启民，王德良，王青月，林嘉河，王文俊,“一种二维纳米片低温高效催化氢解退役聚烯烃制备轻质油的方法”，CN202211512408.8 (2022)

[3] Lim Khak Ho(林嘉河)，王青月，吴岳，程烨，梁花，刘平伟，王文俊,“一种热电器件性能测试装置”，CN202211045952.6(2022)

[4] Lim Khak Ho(林嘉河) 刘平伟，陈杰勋，吴岳，程烨，梁花，王青月,“一种硫族化合物基热电材料及其制备方法”，CN202210953934.1 (2022）

[5] 王青月，Lim Khak Ho (林嘉河)，程烨，“一种用于气敏传感探究的原位光谱分析池及应用”, CN2021112219787, (2021).

[6] 杨经伦，王青月，李志敏，韩伟, “衍生自金属有机骨架的二维催化材料及其在挥发性有机化合物去除中的应用”, CN110787788A, (2019).  

[7] K.L. Yeung, Q. Wang, Z. Li, W. Han, “Two-dimensional Catalytic Materials Derived from Metal-Organic Frameworks for VOC Remediation”, US 20200094187A1, (2018).

[8] Q. Wang, L. K. Ho, Y. Cheng, “An In-Situ Cell for Monitoring Gas Sensor”, PCT-CN2022-095966, (2022).

会议报告

1) Q. Zhou, D. Wang, Q. Wang*, K. H. Lim, W.-J. Wang, P. Liu*, B.-G. Li, "Mechanistic Understanding of Efficient Polyethylene Hydrocracking over Low-Dimensional Catalysts", Oral Presentation, the 9th Asia-Pacific Congress on Catalysis (APCAT-9), Hangzhou, China, 2023.

2) M. Niu, C. Bao, Q. Wang*, "Investigation on catalytic oxidation of trichloroethylene by metal doped CeO2 nanorods", Oral Presentation, the 4th International Symposium on Catalytic Science and Technology in Sustainable Energy and Environment (EECAT), Beijing, China, 2023.

3) Q. Zhou, D. Wang, Q. Wang*, K. H. Lim, W.-J. Wang, P. Liu*, B.-G. Li, "Mechanistic Understanding of Efficient Polyethylene Hydrocracking over 2D Pt/WO3 Catalyst",  Oral Presentation, 15th Global Chinese Chemical Engineers Symposium, Hong Kong, China, 2023.

4) 王青月*，“低维材料高效催化聚乙烯高值转化的机理研究”，口头报告，全球华人化工学者研讨会-第三届青年学者论坛，中国深圳，2023.

5) M. Niu, Q. Wang*, K. H. Lim, W.-J. Wang*, E. Mastan*, Z. Wei, L. Yuan, “Real-time monitoring of redox kinetics by operando technique”, Poster Presentation, 10th Edition BASF NAO Family Day, Shanghai, China, 2023.

6) Y. Li, Q. Wang, K. H. Lim*, W.-J. Wang*, X. Li, E. Mastan, B. Peng*, “Determination of Propagation Rate Coefficients in Aqueous Solution via Pulsed Laser Polymerization”, Poster Presentation, 10th Edition BASF NAO Family Day, Shanghai, China, 2023.

7) 王青月*，“低维Pt团簇高效催化反应的operando光谱学机理研究”，口头报告，中国化学会第33届学术年会，中国青岛，2023.

8) 王青月*，周启民，何凯琳，“异价取代二元金属氧化物低温催化SCR反应及原位研究”，口头报告，第十二届全国环境催化与环境材料学术会议，中国上海，2021.

9) Q. Wang, Z. Li, W. Han, K.L. Yeung*, “Catalytic materials derived from MOFs for low-temperature VOC remediation”, Oral Presentation, the ACS Fall National Meeting & Exposition, San Diego, California, USA, 2019.

10) Y. Li, Q. Wang, K. L. Yeung*, “Performance of MOF-derived CeO2 catalysts for VOCs oxidation”, Oral Presentation, the ACS Fall National Meeting & Exposition, San Diego, California, USA, 2019.

11) Q. Wang, M. A. Alonso, M. Bañares*, King Lun Yeung*, “Operando reaction study of toluene oxidation over ceria catalysts”, the ACS Spring Meeting, New Orleans, Louisiana, 2018

12) Q. Wang, P. Avila, M.A. Bañares*, K.L. Yeung*, “Operando Raman-FTIR study of gold catalysts supported on titania and ceria for VOC-related odor elimination”, Oral Presentation, 253rd ACS National Meeting, San Francisco, California, USA, 2017.

13) Q. Wang, H. Chen, L. T. Luk, W. Han, K. L. Yeung, “Low temperature catalyst for VOC abatement”, the ACS Fall Meeting, Philadelphia, Pennsylvania, 2016

14) Q. Wang, H. Chen, W. Han, K.L. Yeung*, “Synthesis, Characterization of Au/V2O5/CeO2, Au/V2O5/TiO2 Catalysts and Their Performance in VOC-Related Malodor Treatment”, Oral presentation, AIChE Annual Meeting, Salt Lake City, Utah, USA, 2015.

15) W. Chen, Q. Wang, Z. Zhao, J. Qiu, K.L. Yeung*, “Design, synthesis and fabrication of freestanding aerogels of graphene-MOFs for air treatment”, (Conference Paper), AIChE Annual Meeting, 2015, p. 302.

16) Q. Wang, H. Chen, W. Han, K.L. Yeung*, “Preparation, characterization and catalytic performance of V2O5/TiO2 nanobundle/nanotube catalysts for NH3 degradation”, (Conference Paper), AIChE Annual Meeting, 2015, p. 857.

17) H. Chen, Q. Wang, W. Han, K.L. Yeung*, “Copper/vanadia/titania bifunctional catalysts for ammonia remediation”, (Conference Paper), AIChE Annual Meeting, 2015, p. 859.

本课题组具有较为完备operando动态现场原位表征系统（可拓展气液固三相、高温高压等严苛条件反应）、原位聚合物降解装置、多光谱联用气敏测试装置、聚合物催化高值利用评价装置、原位红外光谱仪、在线气相色谱质谱、可视微波合成仪、微型固定床反应器及多种催化材料制备装置，欢迎专家、学者合作访问或交流！

课题组长期招聘博士后、科研助理，同时欢迎报考本课题组研究生，具有化工、聚合、催化、原位表征等方向相关经验者优先考虑。有意向者请发送简历及代表论文至qingyuewang@zju.edu.cn，诚挚地欢迎加入！