【Academic Introduction】

【Learning Experience】

September 2003 to June 2007, undergraduate study in Environmental Science at Zhejiang University

September 2008 to March 2014, Master's and PhD programs in Environmental Science at Zhejiang University

From September 2012 to September 2013, I received a joint PhD in Chemistry from Case Western Reserve University

Research experience:

September 2008 to March 2014, Zhejiang University, indoor VOCs detection and photocatalytic control technology

September 2012-2013.09, Case Western Reserve University, photocatalytic synthesis of nanomaterials

From June 2014 to present, Jiangnan University, mechanism and treatment technology of interface reaction for catalytic oxidation of organic pollutants

【Main Course】

Environmental Chemistry

【Guiding research directions for master's and doctoral students】

1. Interface reaction mechanism of catalytic oxidation of organic pollutants

2. Research on structural regulation of catalytic materials for organic pollutants

【Research field】

Mechanism and treatment technology of interface reaction in catalytic oxidation of organic pollutants

【Thesis】

In recent years, a total of 31 papers have been published as first author or corresponding author, including 20 SCI papers.

[1] C. Baolin, L. Tang, X. Zhang, J. Li, Z. Shen, J. Lyu, Optimization of photographic conversion and catalytic sites for photo assisted catalytic degradation of volatile organic compounds, Chemosphere, 310 (2023) 136696-136696

[2] J. Gao, L. Tang, Z. Shen, Y. Dong, Z. Wang, J. Lyu, J. Li, H. Q. Yu, Coupling of SiC and CeO2 nanosheets to enhance solar energy utilization and optimize catalytic ozone, Applied Catalysis B-Environmental, 317 (2022)

[3] S. Wang, Z. Shen, J. Gao, Y. Qiu, J. Li, Z. Wang, J. Lyu, Absorption generation process for removing dimethyl and recovering phophorus with three dimensional hierarchical porus carbon, Journal of Environmental Chemical Engineering, 10 (2022)

[4] J. Gao, L. Tang, Z. Shen, Y. Dong, Z. Wang, J. Lyu, J. Li, H. Yu, Efficient solo light conversion for optimizing the catalytic zone of gas toluene with PdOx LaFeO3, Applied Catalysis B: Environmental, 288 (2021) 120004

[5] J. Lyu, L. Zhou, J. Shao, Z. Zhou, J. Gao, J. Li, Y. Dong, Z. Wang, Synthesis of TiO2/H2Ti3O7 composite with nanoscale spiny hollow hierarchical structure for photocatalytic mineralization of VOCs, Chemical Engineering Journal, 400 (2020) 125927

[6] J. Lyu, L. Zhou, J. Shao, Z. Zhou, J. Gao, Y. Dong, Z. Wang, J. Li, TiO2 hollow heterojunction with enhanced polar adsorption, light harvesting, and charge separation for photocatalytic degradation of volatile organic compounds, Chemical Engineering Journal, (2020) 123602

[7] L. Yue, R. Cheng, W. Ding, J. Shan, J. Li, J. Lyu, Composed micropores constructed by amorous TiO2 and graphene for descending volatile organic compounds, Applied Surface Science, 471 (2019) 1-7

[8] J. Lyu, J. Shao, Y. Wang, Y. Qiu, J. Li, T. Li, Y. Peng, F. Liu, Construction of a pore core shell homojunction for the photodegradation of antibiotics, Chemical Engineering Journal, 358 (2019) 614-620

[9] J. Lyu, Z. Zhou, Y. Wang, J. Li, Q. Li, Y. Zhang, X. Ma, J. Guan, X. Wei, Platinum enhanced ammonium TiO2 filled mesoporous TiO2 crystals for the photocatalytic mineralization of tetracycline hydrochloride, Journal of Hazardous Materials, 373 (2019) 278-284

[10] J. Gao, J. Lyu, J. Li, J. Shao, Y. Wang, W. Ding, R. Cheng, S. Wang, Z. He, Localization and Stability of Photogenerated Electrons at TiO2 Nanoparticle Surface by Oxygen at ambient temperature, Langmuir, 34 (2018) 7034-7041

[11] J. Lyu, J. Gao, M. Zhang, Y. Wang, D. Hu, J. Yi, J. Zhong, J. Li, S. Wang, Optimization of defect distribution in photodegradation of air pollutants via SiO2 shell enhanced fluoride modification, Applied Catalysis B-Environmental, 205 (2017) 631-636

[12] J. Lyu, J. Gao, M. Zhang, Q. Fu, L. Sun, S. Hu, J. Zhong, S. Wang, J. Li, Construction of homojunction adsorption layer on analyze TiO2 to improve photocatalytic mineralization of volatile organic compounds, Applied Catalysis B-Environmental, 202 (2017) 664-670

【Research projects】

1. General project of the National Natural Science Foundation of China, mechanism and activity estimation model of typical mineral dust uptake of ozone mediated by light at urban interfaces, project number: 42177370, research period: January 2022 to December 2025, led by;

2. National Major Scientific and Technological Project for Water Pollution Control and Treatment, Integration and Application of Pollution Control and Tail Water Quality Improvement Technology in Industrial Agglomeration Areas, Project No. 2017ZX07202-001, Research Period: January 2017 to June 2020, Undertaking Sub project

2. National Natural Science Foundation of China Youth Project, Research on the Bidirectional Induction Mechanism of Surface and Interface Carriers in Photocatalytic Degradation of VOCs, Project Number: 21707051, Research Period: January 2018- December 2020, Hosted by

3. Jiangsu Provincial Natural Science Foundation Youth Project, Research on Bidirectional Induction of VOCs Molecular Adsorption Degradation Behavior and TiO2 Surface Charge Migration Transfer Process, Project Number: BK20150126, Research Period: July 2015-2018.06, Hosted

Research achievements and rewards

Excellent Young Backbone Training Target of Jiangsu Province's "Blue and Blue Project"

Excellent Young Scholar of Jiangnan University

【Patents Obtained】

1. Lv Jinze, Zhang Min, Fu Qiang. Preparation method of crystal porous composite titanium dioxide for purifying air. Chinese invention patent number: ZL201510836924. X

2. Lv Jinze, Fu Qiang, Sun Luna A method for preparing low concentration VOCS titanium dioxide composite materials using adsorption enhanced visible light catalysis. Chinese invention patent number: ZL201510848021.3

3. Lv Jinze, Gao Junxian, Zhang Min, and Wang Yanhong An optimization method for titanium dioxide body surface two-phase defects. Chinese invention patent number: ZL201710080254.2