[1] Chen Gao, Ping Chen, Zhun Bo, Lizhang Wang, Peng Li*. Study on the process condition and removal mechanism of highly efficiently removal of Cr () from wastewater with electrocoagulation. Nonferrous Metals (Extractive Metallurgy), 2021, 2, 106-113.

[1] Peng Li*, Ping Chen, Guanghui Wang, Lizhang Wang, Xuegang Wang, Yiran Li, Weimin Zhang, Hao Jiang, Hong Chen. Uranium Elimination and Recovery from Wastewater with Ligand Chelation-Enhanced Electrocoagulation. Chemical Engineering Journal, 2020, 393, 124819-124827. (SCI)

[2] Peng Li*, Ping Chen, Zhipeng Liu, Shiyong Nie, Xuegang Wang*, Guanghui Wang, Weimin Zhang*, Hong Chen, and Lizhang Wang. Highly Efficient Elimination of Uranium from Wastewater with Facilely Synthesized Mg-Fe Layered Double Hydroxides: Optimum Preparation Conditions and Adsorption Kinetics. Annals of Nuclear Energy, 2020, 140, 107140-107152. (SCI)

[3] Peng Chen, Peng Li*, Fuxiang Zhao, Xiaojun Ding, Jiaqiang Wang. Research on the co-precipitation mechanism of multiple metal ions with coagulation and electrocoagulation methods. Nonferrous Metals (Extractive Metallurgy), 2020, 3, 79-84.

[1] Peng Li*, Zhun Bao, Guanghui Wang, Pengfei Xu, Xuegang Wang, Zhipeng Liu, Yadan Guo, Jing Deng, and Weimin Zhang, Ternary Semiconductor Metal Oxide Blends Grafted Ag@AgCl Hybrid as Dimensionally Stable Anode Active Layer for Photoelectrochemical Oxidation of Organic Compounds: Design Strategies and Photoelectric Synergistic Mechanism, Journal of Hazardous Materials,2019, 362, 336-347. (SCI)

[2] Shiyong Nie, Xuegang Wang, Peng Li*, Xu Gao, Zhipeng Liu, Yiping Zhu. Adsorption of uranium (Ⅵ) by Mg/Fe layered double hydroxides. Chinese Journal of rare metals, 2019, 43 (9), 920-927.

[1] Xu Gao, Peng Li, Xuegang Wang, Pingping Liao, Shiyong Nie. Treatment of low concentration uranium wastewater by EDTA chelating-electrocoagulation. Environmental Engineering, 2018, 36(7), 27-32.

[2] Xu Gao, Peng Li, Xuegang Wang, Yadan Guo, Pingping Liao, Zhipeng Liu, Ye Fan. Comparison of treatment efficiency of uranium (Ⅵ) containing wastewater using flocculation and electrocoagulation processes. Chinese Journal of Environmental Engineering, 2018, 12(2), 489-496.

[1] Peng Li*, Zhun Bao, Xuegang Wang, Pingping Liao, Guanghui Wang, Lizhang Wang, Yadan Guo, Weimin Zhang. Highly Efficient Interception and Precipitation of Uranium (VI) from Aqueous Solution by Iron-Electrocoagulation Combined with Cooperative Chelation by Organic Ligands. Environmental Science & Technology, 2017, 51, 14368-14378. (SCI)

[2] Peng Li*, Zhipeng Liu, Xuegang Wang, Yadan Guo, Lizhang Wang. Enhanced degradation of methyl orange in aqueous solution using iron–carbon micro-electrolysis activation of sodium persulfate. Chemosphere, 180 (4): 100-107, 2017. (SCI)

[3] Pengfei Xu, Yiqin Guo, Guanghui Wang, Xuegang Wang, Peng Li*. Experimental study of UV-activated persulfate for decolorization of methyl orange wastewater. Environmental Engineering, 2017, 35 (11), 58-62.

[1] Peng Li*, Binbin Ding, Lizhang Wang, Yadan Guo, Xuegang Wang and Weimin zhang. Investigation of capacitance storage and cyclic voltammetry for the electrochemical oxidation of phenol on iridium and lead oxide electrodes. Journal of Solid State Electrochemistry, 2016, 20 (12): 3429-3436. (SCI)

[2] Peng Li, Yuemin Zhao, Lizhang Wang, Bo Zhang. Capacitance performance of packed-bed electrochemical reactor toward organic matter electro-oxidation in different electrolytes. Journal of Central South University (Science and Technology), 2016, 47 (2), 698-702. (EI)

[1] Peng Li, Yuemin Zhao, Binbin Ding, Lizhang Wang*. Effect of calcination temperature and molar ratio of tin and manganese on capacitance of Ti/SnO₂–Sb–Mn/β-PbO₂ electrode during phenol electro-oxidation. Journal of Electroanalytical Chemistry, 2015, 747 (2): 45-52.

[2] Peng Li, Lizhang Wang, Shengxiang Yang, Yadan Guo. Electrocatalytic performance for phenol degradation by a composite oxides MO_x carbon-loaded particle electrode system. Research of Environmental Science, 2015, 28 (12), 1963-1970. (EI)

[1] Peng Li, Yuemin Zhao, Lizhang Wang*, Binbin Ding, Bo Zhang, Bo Wu. Electrochemical capacitance behavior of a packed bed electrochemical reactor toward phenol electro-oxidation. Journal of Applied Electrochemistry, 2014, 45 (2), 177-184.

[2] Peng Li, Yuemin Zhao, Lizhang Wang*, Binbin Ding, Yunlong Hu, Qian Yan. A novel packed-bed electrocatalysis reactor (PBECR) for effcient degradation of organic compounds. Electrochemistry, 2014, 82 (12): 1056-1060.

[3] Peng Li, Yuemin Zhao, Lizhang Wang*, Binbin Ding and Yunlong Hu. New strategy of using stannic oxide as catalyst in a three-dimension electrode reactor for the electro-oxidation of organic matter. Journal of New Materials for Electrochemical Systems, 2014, 17 (4): 243-249.

[4] Peng Li, Yuemin Zhao, Yanle Zhang, Zhaoqing Lu. Electro-catalytic properties of β-PbO₂/Sb-SnO₂/Ti electrode on phenol oxidation. 2014, 20 (5), 493-498.

[5] Peng Li, Yuemin Zhao, Lizhang Wang, Bo Zhang, Jing Zhang. Electro-oxidation of phenolic wastewater with TiO₂-AC filling in a packed bed electrochemical reactor. Chinese Journal of Environmental Engineering, 2014 (11), 4643-4649.

2019

[1] Program Leader. The Natural Science Foundation of Jiangxi Province, Research on the removal and resource enrichment mechanism of uranium (Ⅵ) Based on the intensified electrocoagulation by uranyl ion cooperation chelation with organic ligands. Number: 20192ACBL20001, 2018.01.01-2020.12.30, RMB 200 thousand Yuan.

[2] Program Leader. The Experimental Development Research Project of East China University of Technology. Novel Uranium Removal with a Mg-Fe double mental hydroxide. Number: DHSY-201804, 2019.01.01—2020.12.31, RMB 25 thousand Yuan.

2017

[1] Program Leader. Jiangxi Province Key Laboratory of the Causes and Control of Atmospheric Pollution, East China University of Technology. Highly efficient reduction of CO₂ in an optimized electrochemical system and its mechanism. Number: AE1704, 2017.01.01—2019.12.31, RMB 25 thousand Yuan.

[2] Program Leader. The Science and Technology Project of Jiangxi Education Department. Research on the technology and mechanism toward uranium containing wastewater treatment using electrocoagulation based on chelating reaction of uranyl ion with its organic ligands. Number: GJJ160579, 2017.01.01—2019.12.31, 20 thousand Yuan.

2016

[1] Program Leader. The Natural Science Foundation of Jiangxi Province, Fundamental research of uranium ore smelting and purification of wastewater containing uranium ions using integrated electrocatalytic oxidation and reduction process. Number: 20161BAB213091, 2016.01.01—2017.12.31, RMB 50 thousand Yuan.

[2] Program Leader. The East China University of Technology State Key Laboratory Breeding Base of Nuclear Resources and Environment, Fundamental research of uranium ore smelting and purification of wastewater containing uranium ions using integrated electrocatalytic oxidation and reduction process, Number: NRE1513, 2016.01.01—2017.12.31, RMB 20 thousand Yuan.

[3] Program Leader. The Doctoral Research Project of East China University of Technology. Fundamental research of uranium ore smelting and purification of wastewater containing uranium ions using integrated electrocatalytic oxidation and reduction process. Number: DHBK2015304, 2016.01.01—2019.12.31, RMB 100 thousand Yuan.

[4] Program Leader. The Experimental Development Research Project of East China University of Technology. Uranium containing wastewater treatment using electrocoagulation method. Number: DHSY-201606, 2016.01.01—2017.12.31, RMB 22 thousand Yuan.

2021

[1] Peng Li, Guanghui Wang, Pengfei Xu, Lizhang Wang, Xuegang Wang, Yadan Guo, Weimin Zhang. A New Strategy for Preparing of DSA photoanode, the preparation method and its application. Chinese Patent for Invention. Authorized Number: ZL201711029800.6, 2021.

2020

[1] Peng Li, Lizhang Wang, Guiyin Xu, Haibin Jiang. Copper eliminate and recovery for wastewater. Chinese Patent for Invention. Application number: 202010574444.1.

2019

[1] Yuhui Deng, Lei Zhou, Xuegang Wang, Peng Li, Guanghui Wang, Lizhang Wang, Yadan Guo. Domestic Sewage Treatment with an Electrolytic System. Patent for Utility Models, Authorized Number: ZL201820776795.9.

[2] Peng Li, Xuegang Wang, Zhanxue Sun, Guanghui Wang, Lizhang Wang, Hao Jiang. Uranium recovery from polluted wastewater. Application number: 201910896570.6

2018

[1] Peng Li, Xuegang Wang, Guanghui Wang, Lizhang Wang, Lian Yi, Congling Xiao. A High Efficiency Method and System for Purification of Uranium from Wastewater. Chinese Patent for Invention. Authorized Number: ZL201710284697.3, 2018.

[2] Xuegang, Wang Peng Li, Shiyong Nie, Zhipeng Liu, Lizhang Wang. Me-Fe absorbent for uranium removal from wastewater: design method and the application. Chinese Patent for Invention. Application number: 201811526240.X.

2017

[1] Peng Li, Xuegang Wang, Yadan Guo, Guanghui Wang, Lian Yi, Congling Xiao. Uranium Containing Wastewater Treatment with an Electrochemical Technology. Chinese Patent for Invention, Authorized Number: ZL201610992609.0, 2017.