Personal Information
Name: Wang Jinlong
academic degree:Doctor
academic rank:Research Fellow
E-mail:wjl2022@ccnu.edu.cn;
Education and research experience
Wang Jinlong, doctor, member of the Indoor Environment and Health Branch of the Chinese Society of Environmental Sciences, member of the Atmospheric Environment Special Committee of the Hubei Society of Environmental Sciences; Since taking office, he has successively obtained the support of the National Natural Science Foundation of China, the Open Project of the State Key Laboratory of Environmental Simulation and Pollution Control, and a number of enterprise technical support projects; The research field is environmental materials and environmental catalysis. Currently, research interest is mainly focused on improving air quality and energy conservation in building environments, including developing efficient control technologies for indoor formaldehyde, ozone, odorants, aerosol microorganisms, and moisture, and exploring new materials, methods, and related material structures and performance relationships applied to energy, architecture, and the environment. So far, he has published more than 20 papers as the first author or corresponding author, and have applied for 8 invention patents and granted 3 authorizations as the first inventor.
2022.1 to now, Researcher Fellow, School of Chemistry, Central China Normal University
2019.9-2021.12, Associate Professor of Zihuan College of Wuhan University of Technology
2018.12-2020.10 Visiting scholar, Department of Chemistry, University of Connecticut
2016.7-2019.9 Lecturer, School of Resources and Environment, Wuhan University of Technology
2011.7-2016.6 Doctoral Candidate, School of Environment, Tsinghua University
2007.9-2011.6 China University of Mining and Technology (Beijing) College of Chemistry and Environmental engineering Bachelor
Research Fields and Interests
1. Indoor Low Concentration Gas Pollutant Environmental Catalytic Technology
2. Damp heat control and antibacterial technology in building environments
3. Urban Environmental Air Quality Improvement Technology Based on Solar Energy Utilization
Undertaking project and project information
1.National Natural Science Foundation of China, with a total investment of 630,000 yuan 2021/01-2024/12
2. Enterprise Technical Support Anhui Provincial Institute of Transportation and Exploration for Ship Pollutant Acceptance and Transfer Compilation 238,000 yuan 2022.1-2022.12
3. Talent Launch Fund of Central China Normal University 2022.3-2027.12
Part-time Academic Job
Chinese Chemical Letters (IF:6.4)Youth editorial board
Catalysts (IF:4.1)Guest Editor of Special Issue
Member of the Atmospheric Environment Special Committee of the Hubei Environmental Science Society
Member of Indoor Environment and Health Branch of Chinese Society of Environmental Sciences
Academic achievements (representative papers)
【1】J Wang, S L Suib*. Water Harvesting from the atmosphere in arid areas with manganese dioxide. Environmental Science & Technology Letters. 2020, 7, 28–53.
【2】J Wang, P Zhang*, J Li, C Jiang, R Yunus, J Kim. Room–temperature oxidation of formaldehyde by layered manganese oxide: effect of water, Environmental Science & Technology 49, 2015, 12372–12379.
【3】L Miao, Q Nie, J Wang*, G Zhang, P Zhang. Ultrathin MnO2 nanosheets for optimized hydrogen evolution via formaldehyde reforming in water at room temperature. Applied Catalysis B: Environmental. 248, 2019, 466–476.
【4】J Wang, J Li, G. Zhang*, P Zhang*. Understanding the “seesaw effect” of interlayered K+ with different structure in manganese oxides for the enhanced formaldehyde oxidation. Applied Catalysis B: Environmental. 224, 2018, 863–870.
【5】J Wang, G Zhang*, P Zhang*. Graphene–assisted photothermal effect on promoting catalytic activity of layered MnO2 for gaseous formaldehyde oxidation. Applied Catalysis B: Environmental. 239, 2018, 77–85.
【6】J Wang, J Li, C Jiang, P Zhou, P Zhang*, J Yu*. The effect of manganese vacancy in birnessite–type MnO2 on room temperature oxidation of formaldehyde in air, Applied Catalysis B: Environmental. 204, 2017, 147–155.
【7】J Ma, J Wang*, Y Dang. Photo-assisted oxidation of gaseous benzene on tungsten-doped MnO2 at lower temperature. Chemical Engineering Journal. 2020, 124387.
【8】Y Xia, J Wang*, C. Gu, Y. Ling, Z. Gao. MnO2/Al foil decorated air cleaner with self-driven property for the abatement of indoor formaldehyde. Chemical Engineering Journal. 2020, 122872.
【9】N, Zou, Q Nie, X Zhang, G Zhang, J Wang*, P Zhang*, Electrothermal regeneration by Joule heat effect on carbon cloth based MnO2 catalyst for long–term formaldehyde removal. Chemical Engineering Journal. 357, 2019, 1–10.
【10】Q Nie, Y Xie, J Ma, J Wang*, G. Zhang. High piezo–catalytic activity of ZnO/Al2O3 nanosheets utilizing ultrasonic energy for wastewater treatment. Journal of Cleaner Production. 2020, 118532.
Awards and Honors
1. Guiding undergraduate students to win the second prize in the physical category of the 16th National Environmental Friendly Discipline Competition(2021)
2. Instructed graduate students to win the second prize of the British Royal Society (RSC) Short Video Science Popularization Competition(2020)
3. Guiding undergraduate students to win the National Excellent Graduation Thesis Award for Environmental Science in Higher Education Institutions(2019)
4. Selected as the Vice President of Science and Technology for High Level Innovation and Entrepreneurship Talents of Jiangsu Provincial Department of Science and Technology(2018)
【1】J Wang, S L Suib*. Water Harvesting from the atmosphere in arid areas with manganese dioxide. Environmental Science & Technology Letters. 2020, 7, 28–53.
【2】J Wang, P Zhang*, J Li, C Jiang, R Yunus, J Kim. Room–temperature oxidation of formaldehyde by layered manganese oxide: effect of water, Environmental Science & Technology 49, 2015, 12372–12379.
【3】L Miao, Q Nie, J Wang*, G Zhang, P Zhang. Ultrathin MnO2 nanosheets for optimized hydrogen evolution via formaldehyde reforming in water at room temperature. Applied Catalysis B: Environmental. 248, 2019, 466–476.
【4】J Wang, J Li, G. Zhang*, P Zhang*. Understanding the “seesaw effect” of interlayered K+ with different structure in manganese oxides for the enhanced formaldehyde oxidation. Applied Catalysis B: Environmental. 224, 2018, 863–870.
【5】J Wang, G Zhang*, P Zhang*. Graphene–assisted photothermal effect on promoting catalytic activity of layered MnO2 for gaseous formaldehyde oxidation. Applied Catalysis B: Environmental. 239, 2018, 77–85.
【6】J Wang, J Li, C Jiang, P Zhou, P Zhang*, J Yu*. The effect of manganese vacancy in birnessite–type MnO2 on room temperature oxidation of formaldehyde in air, Applied Catalysis B: Environmental. 204, 2017, 147–155.
【7】J Ma, J Wang*, Y Dang. Photo-assisted oxidation of gaseous benzene on tungsten-doped MnO2 at lower temperature. Chemical Engineering Journal. 2020, 124387.
【8】Y Xia, J Wang*, C. Gu, Y. Ling, Z. Gao. MnO2/Al foil decorated air cleaner with self-driven property for the abatement of indoor formaldehyde. Chemical Engineering Journal. 2020, 122872.
【9】N, Zou, Q Nie, X Zhang, G Zhang, J Wang*, P Zhang*, Electrothermal regeneration by Joule heat effect on carbon cloth based MnO2 catalyst for long–term formaldehyde removal. Chemical Engineering Journal. 357, 2019, 1–10.
【10】Q Nie, Y Xie, J Ma, J Wang*, G. Zhang. High piezo–catalytic activity of ZnO/Al2O3 nanosheets utilizing ultrasonic energy for wastewater treatment. Journal of Cleaner Production. 2020, 118532.
