张倩个人主页
基本信息
姓 名:张倩
所在单位:华侨大学化工学院环境系
职 称:副教授/硕导
电 话:1
电子信箱:qianzhang@hqu.edu.cn
通讯地址:福建省厦门市集美大道668号,361021
研 究 室/办公地点:泛华科技大楼A302
研究领域
研究方向:水污染处理、纳米催化材料制备、高级氧化技术
教育背景
2004-09 至 2008-06, 山西财经大学, 环境科学, 学士
2008-09 至 2011-06, 厦门大学, 环境工程, 硕士
2012-09 至 2015-06, 台湾大学, 环境工程, 博士
工作经历
2015-08 至 2017-06, 华侨大学,博士后
2017-07 至 2018-12, 华侨大学, 化工学院, 讲师
2019-01 至 今, 华侨大学, 化工学院, 副教授
课程教学
研究生:水的深度处理与资源化技术、土壤与地下水
本科生:工程制图、环境监测等
科研项目
1.界面键合M3(HITP)2/GN制备及其电催化去除海水盐酸四环素污染机理研究,纵向项目/福建省科学技术厅,2021/11/1-2024/11/1
2.厦门市VOCs全流程密闭收集处理工艺示范技术研究,横向项目,2023/4-2023/12/31
3.厦门市海沧区芦坑村地块环境质量状况调查,横向项目,2021/6/5-2021/10/31
4.室内空气中颗粒污染物与挥发性有机污染物协同处理关键技术研发,福建省科技厅/对外合作重点项目,2017/04-2020/03
5.高效掺杂石墨烯电极催化染料废水的应用研究,厦门市科技厅/对外合作项目,2017/03-2020/09
6.效杂原子掺杂石墨烯材料电催化降解染料废水应用研究,泉州市科技厅/面上项目,2017/10-2019/10
7.Ag+-MCM-41中Ag特性对陶瓷抗菌性能影响研究,中国博士后科学基金委员会/面上项目,2015/09-2017/06
奖励荣誉
1. 福建省科技进步奖:难降解有机废水处理工艺系统关键技术研发与应用,三等奖,福建省科技厅,2021 (排名1)
学术成果
近五年10篇代表性期刊论文
1. Q. Zhang, X. Lan, X. Chen, J. Hong*,Elucidating the roles of Ni ions and crosslinking heteroatoms in Ni3(BHT)2/2GO as electron shuttles for electrocatalytic oxidation of tetracycline hydrochloride,Chemosphere,349(2024)140849.
2. W. Wu, Z. Huang, Y. Liu, J. Hong, Q. Zhang*, Novel Co-MOF/GO triggered peroxymonosulfate activation: Insight into singlet oxygen generation mechanism from peroxymonosulfate self-decomposition and secondary radical conversion, Chemical Engineering Journal, 476(2023)146365.
3. X. Lan, Z. Huang, Y. Liu, J. Hong, Q. Zhang*, New electron transfer bridge construction between Ni3(HTTP)2 and graphene oxide layers for enhanced electrocatalytic oxidation of tetracycline hydrochloride, Chemical Engineering Journal, 451(2023)148733
4. Y. Yang; Z. Huang; Y. Liu; D. Guo; J. Hong, Q. Zhang*, Mechanism exploration of highly conductive Ni-Metal organic frameworks/reduced graphene oxide heterostructure for electrocatalytic degradation of paracetamol: functions of metal sites, organic ligands, and rGO basement, Journal of Colloid & Interface Science, 629 B (2023) 667-682
5. Q. Zhang, Y. Yang, Z. Huang, Y. Liu, J. Hong*, Stability and reactivity improved bimetallic 2D metal organic frameworks for electrocatalytic degradation of p-acetaminophenol, Journal of Environmental Chemical Engineering, 11(2023)110734.
6. Q. Zhang, Y. Yang, D. Guo, J. Hong*, Cu3(hexaamino triphenylhexane)2/reduced graphene oxide composites with boosting electron-transfer properties for acetaminophen electrocatalytic degradation, Chemosphere, 338(2023) 139444.
7. T. Hu, S. Chen, Q. Zhang*, J. Hong, Efficiency and mechanism analysis of bisphenol A degradation by sulfur-doped graphene-catalyzed peroxydisulfate, Applied surface Science, 572(2022),151429.
8. Q. Zhang, S. Chen, Z. Huang, Y. Liu and J. Hong, Designable graphitic N composite of N doped graphene oxide via low temperature O3-annealing for Bisphenol A electrocatalytic degradation, Applied surface science, 600(2022)154089
9. Q. Zhang, Y. Yang, Y. Zhou, J. Hong, Paracetamol degradation via electrocatalysis with B and N co-doped reduced graphene oxide: Insight into the mechanism on catalyst surface and in solution, Chemosphere, 282(2022)132070.
10. Q. Zhang, B. X. Wang, S. Chen, S. Y. Zhang, J. Hong. S edge/center-selectively doped graphene oxide for bisphenol A electro-degradation: Preparation, efficiency and mechanism, Chemical Engineering Journal, 420(2021) 127669.
授权发明专利
1.一种硫掺杂石墨烯催化材料及其制备方法,ZL201711094068.0,2021,中国,张倩、洪俊明、黄湾、王炳煌