Li zequan received his Ph.D degree from Chongqing university.From August 2012 to July 2013, he was a Visiting Scientist in University of Washington. Associate Professor li’s research interests focus on molten salt electrochemistry, material preparation and properties, environment.

Contact information

Email:lzq0313@cqu.edu.cn

Research direction

molten salt electrochemistry, material preparation and properties, environment

Representative papers, monographs and patents

17. Jiabao Gu , Chaogang Ban , Jiazhi Meng , Qianwen Li , Xuanyu Long , Xiaohan Zhou , Nan Liu, Zequan Li .Construction of dual Z-scheme UNiMOF/BiVO4/S-C3N4 photocatalyst for visible-light photocatalytic tetracycline degradation and Cr(VI) reduction[J]. Applied Surface Science,2023,611:155575

16. Xuanyu Long, Jiazhi Meng, Jiabao Gu, Lanqing Ling, Qianwen Li, Nan Liu, Kaiwen Wang and Zequan Li. Interfacial engineering of NiFeP/NiFe-LDH heterojunction for eEfficient overall water Splitting [J]. Chinese Journal of Structural Chemistry,2022, 412204046-2204053

15.Jiabao Gu , Qianwen Li , Xuanyu Long , Xiaohan Zhou , Nan Liu , Zequan Li. Fabrication of magnetic dual Z-scheme heterojunction materials for efficient photocatalytic performance: The study of ternary novel MIL-88A (Fe)/BiOBr/SrFe12O19 nanocomposite [J] Separation and Purification Technology , 2022 ,(289): 120778

14.Qianwen LiLimei Li Xuanyu LongYu Tu Lanqing LingJiabao GuLiwei HouYi Xu Nan Liu Zequan Li. Rational design of MIL-88A(Fe)/Bi2WO6 heterojunctions as an efficient photocatalyst for organic pollutant degradation under visible light irradiation[J]. Optical Materials. 2021(118)111260

13.Ling Lanqing Tu Yu Long XuanyuLi Qianwen Gu JiabaoLiu NanLi Zequan.The one-step synthesis of multiphase SnS2 modified by NH2-MIL-125(Ti) with effective photocatalytic performance for Rhodamine B under visible light[J]. Optical Materials. 2021(111)110564

12. Dan Linyang, Liu Nan, Li Zequan, Li Xuemin. Study on Diffusion Dynamics of O2-in Molten CaCl2 for Molten Salt Electrolysis [J]. Rare Metal Materials and Engineering. 2021507):2409-2414

11.Tu YuLing Lanqing Li QianwenLong XuanyuLiu NanLi Zequan. Greatly enhanced photocatalytic activity over Bi2WO6 by MIL-53 (Fe) modification[J]. Optical Materials. 2020 (110)110500

10. Dan Linyang, Liu Nan, Li Zequan, Li Xuemin. Study on Conductivity Mechanism of TiO2 with Oxygen Vacancies Prepared by FFC Process and Cathode Structures [J]. Rare Metal Materials and Engineering. 2020498):2773-2778

9. Li Zequan, Dan Linyang, Li Xuemin, Liu Nan, Bai Chenguang, Hu Meilong. Gas of Molten Salt Electrolysis and Its Impact on Electrodeoxidation [J]. Rare Metal Materials and Engineering. 201746(12)3767-3772

8.Li ZequanHu LingLu JiaoLiu NanHan Mei. Progress in Mutual Influences between Substances during Preparation of Alloy via Molten Salt Electro-Deoxidation [J]. Chinese Journal of Rare Metals. 201640(11)1169-1176

7.Zequan LiJing GuoRong HuLiyue Ru and Haihua Wang. Carbon Anode for the Formation of Carbon Monoxide and its Impact on the Molten-salt Electrolysis[J]. Asian Journal of Chemistry. 201426(9): 2565-2570

6.Liyue Ru, Zequan Li, Chenguang Bai, Na Zhang, Haihua Wang. Effect of CaTiO3 Crystal Structure and  Cathodic Morphological Structure on the Electrolysis[J]. Asian Journal of Chemistry. 2013, 25(4): 1814-1818

5.Zequan Li, Liyue Ru, Chenguang Bai, Na Zhang, Haihua Wang. Effect of sintering temperature on the electrolysis of TiO2[J]. International Journal of Minerals Metallurgy and Materials. 2012, 19(7): 636-641

4. Li ZequanHu RongGuo JingRu Li-yueWang Hai-hua. Effect on the formation of oxygen vacancy of TiO2. Materials Science Technology. 201220 (2)80-85

3.Zequan LiNa Zhang, Chenguang BaiDongmei JianLiyue Ru and Haihua Wang.Influence of Sintering Temperatures on Structure and Electrical Conductivity of TiO2 Cathode[J]. Asian Journal of Chemistry. 201123(11)4932-4938

2. Zequan LiLiyue Ru, Chenguang BaiNa Zhang and Haihua Wang. Characterization study on specific surface and absorption of CaTiO3[J]. Functional materials. 201142(3)577-579

1. Zequan LiLiyue Ru, Chenguang BaiChen XiaoliangTao Changyuan. Study on Formation and Transportation Process of O2- in TiO2 Electrode[J]. Rare Metal Materials and Engineering. 2010393473-476