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张俊磊 博士后     进组时间: 2019    离组时间: 2021

现为西北工业大学材料学院副教授

出生年月:1990.12

籍贯:河南驻马

教育经历:

2019-07至2021-06       暨南大学                                  博士后

2018-06至2019-01       约翰霍普金斯大学 环境催化      访问研究生

2016-09至2019-06       复旦大学       环境工程             博士

2013-09至2016-03       东华大学       环境科学             硕士

2009-09至2013-07       温州大学       环境科学             学士

主持项目

中国博士后科学基金会面上项目,2020-2021,8万元,主持,已结题。

广东省区域联合基金-青年项目,2021-2022,10万元,主持,已结题。

表论文:

[1] Junlei Zhang, Zhi Li, Bin Liu, Mengshan Chen, Yingtang Zhou*, Mingshan Zhu*, Insights into the role of C-S-C bond in C3N5 for photocatalytic NO deep oxidation: Experimental and DFT exploration. Applied Catalysis B: Environmental, 2023, 328, 122522.

[2] Junlei Zhang, Zhi Li, Jie He, Hengcong Tao, Mengshan Chen, Yingtang Zhou*, Mingshan Zhu*, Reinforced Photogenerated Electrons in Few-Layer C3N5 for Enhanced Catalytic NO Oxidation and CO2 Reduction. ACS Catalysis, 2023, 13, 1, 785-795.

[3] Cunjun Li, Junlei Zhang*, Xianlei Chen, Hengcong Tao, Yingtang Zhou*, Mingshan Zhu*, Upgraded charge transfer by an internal electric field in 2D/2D BiOCl/N-rich C3N5 heterojunctions for efficiently visible-light catalytic NO removal. Chemical Engineering Journal, 2023, 468, 143753.

[4] Junlei Zhang, Hengcong Tao, Shanshan Wu, Jingling Yang, Mingshan Zhu*, Enhanced durability of nitric oxide removal on TiO2 (P25) under visible light: Enabled by the direct Z-scheme mechanism and enhanced structure defects through coupling with C3N5. Applied Catalysis B: Environmental2021, 296, 120372.

[5] Junlei Zhang, Wei Zhao, Shanshan Wu, Renli Yin, Mingshan Zhu*, Surface dual redox cycles of Mn(III)/Mn(IV) and Cu(I)/Cu(II) for heterogeneous peroxymonosulfate activation to degrade diclofenac: Performance, mechanism and toxicity assessmentJournal of Hazardous Materials2021 , 410, 124623.

[6] Junlei Zhang, Wei Zhao, Zhi Li, Gang Lu, Mingshan Zhu*, Visible-light-assisted peroxymonosulfate activation over Fe(II)/V(IV) self-doped FeVO4 nanobelts with enhanced sulfamethoxazole degradation: Performance and mechanismChemical Engineering Journal2021, 403, 126384.

[7] Junlei Zhang1, Binghua Jing1, Zhuoyun Tang, Zhimin Ao, Dehua Xia, Mingshan Zhu*, Shaobin Wang,  Experimental and DFT insights into the visible-light driving metal-free C3N5 activated persulfate system for efficient water purification. Applied Catalysis B: Environmental2021, 289, 120023.

[8] Shanshan Wu, Xiang Yu, Junlei Zhang*, Yuanming Zhang, Yi Zhu, Mingshan Zhu*, Construction of BiOCl/CuBi2O4 S-scheme heterojunction with oxygen vacancy for enhanced photocatalytic diclofenac degradation and nitric oxide removal. Chemical Engineering Journal2021, 411, 128555.

[9] Shijie Li*, Bing Xue, Jialin Chen, Yanping Liu, Junlei Zhang*, Hengwei Wang, Jianshe Liu, Constructing a plasmonic p-n heterojunction photocatalyst of 3D Ag/Ag6Si2O/Bi2MoOfor efficiently removing broad-spectrum antibiotics. Separation and Purification Technology, 2021, 254, 117579.
[10] Junlei Zhang, Chunyang Zhai, Wei Zhao, Yanxi Chen, Renli Yin, Lixi Zeng, Mingshan Zhu*, Insight into combining visible-light photocatalysis with transformation of dual metal ions for enhancing peroxymonosulfate activation over dibismuth copper oxide. Chemical Engineering Journal2020, 390, 124582.
[11] Junlei Zhang, Zhen Ma*, Ag-Ag3VO4/AgIOcomposites with enhanced visible-light-driven catalytic activity. Journal of Colloid and Interface Science, 2018, 524, 16-24.
[12] Junlei Zhang, Zhen Ma*, Ag3VO4/BiOIO3 heterojunction with enhanced visible-light-driven catalytic activity. Journal of the Taiwan Institute of Chemical Engineers, 2018, 88, 177-185.
[13] Junlei Zhang, Zhen Ma*, Ag-Ag2CO3/Bi2MoOcomposites with enhanced visible-light-driven catalytic activity. Journal of the Taiwan Institute of Chemical Engineers2018, 88, 121-129.

[14] Junlei Zhang1, Zhen Ma1*, Porous g-C3N4 with enhanced adsorption and visible-light photocatalytic performance for removing aqueous dyes and tetracycline hydrochloride. Chinese Journal of Chemical Engineering2018, 26, 753-760.

[15] Junlei Zhang, Zhen Ma*, AgI/β-Ag2MoO4 heterojunctions with enhanced visible-light-driven catalytic activity. Journal of the Taiwan Institute of Chemical Engineers, 2017, 81, 225–231.

[16] Junlei Zhang, Zhen Ma*, Enhanced visible-light photocatalytic performance of Ag3VO4/Bi2WO6 heterojunctions in removing aqueous dyes and tetracycline hydrochloride. Journal of the Taiwan Institute of Chemical Engineers, 2017, 78, 212-218.

[17] Junlei Zhang, Zhen Ma*,  Flower-like Ag3VO4/BiOBr n-p heterojunction photocatalysts with enhanced visible-light-driven catalytic activity. Molecular Catalysis, 2017, 436, 190-198.

[18] Junlei Zhang, Zhen Ma*, Ag6Mo10O33/g-C3N4 1D-2D hybridized heterojunction as an efficient visible-light-driven photocatalyst. Molecular Catalysis, 2017, 432, 285-291.

[19] Junlei Zhang, Zhen Ma*, Flower-like Ag2MoO4/Bi2MoO6 heterojunctions with enhanced photocatalytic activity under visible light irradiation. Journal of the Taiwan Institute of Chemical Engineers, 2017, 71, 156-164.

[20] Junlei Zhang, Lisha Zhang*, Xiaofeng Shen, Pengfei Xu, Jianshe Liu*,  Synthesis of BiOBr/WO3 p–n heterojunctions with enhanced visible light photocatalytic activity. CrystEngComm, 2016, 18, 3856-3865.

[21] Junlei Zhang, Huan Liu, Zhen Ma*, Flower-like Ag2O/Bi2MoO6 p-n heterojunction with enhanced photocatalytic activity under visible light irradiation. Journal of Molecular Catalysis A: Chemical, 2016, 424, 37-44.