邱兵-熊猫環境學院

師資隊伍

教授

副教授

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基本信息

姓名：邱兵

專業職務🐹：副教授（內聘）

研究方向：環境功能材料的製備及其在環境汙染與分析過程中的應用

電子郵箱🔅👷🏽‍♀️：qiubing@gdupt.edu.cn

通訊地址♜：熊猫体育西城校區環境樓229室

個人簡介

邱兵🧑🏽‍🎨🏄‍♂️，博士，副教授（內聘）。2021年博士畢業於華南理工大學環境與能源學院👨🏿‍✈️🐦‍🔥，目前主要開展環境功能材料的製備及其在環境汙染與分析過程中的應用研究💇🏼‍♀️。目前主持廣東省自然科學基金面上項目1項💽、廣東省教育廳青年創新人才類項目1項和熊猫体育校級科研項目1項，以第一作者/通訊作者發表SCI論文6篇🧑🏽‍🦳🧑🏽‍🍳。

科研項目

（1）廣東省自然科學基金面上項目，基於MOFs衍生碳限域銅基雙金屬修飾陰極電催化還原硝酸鹽製氨的機製研究🧝🏿‍♂️，2025.01至2026.12，在研，主持

（2）廣東省教育廳青年創新人才類項目🧿，磁組裝生物陰極體系降解水中磺胺甲惡唑的研究🧙‍♀️👰🏼‍♂️，2023.10至2024.10💇🏽，在研🫃🏼，主持

（3）熊猫体育校級科學研究項目-人才引進項目，Fe基MOF衍生材料修飾陰極電芬頓體系降解磺胺甲惡唑的研究✍🏻，2022.05至2025.05🔁，在研，主持

學術論文

[1] Bing Qiu, Xiaolan Zhou*, Weimin Li, Houjuan Zhu, Long Yu, Chao Yuan, Rongni Dou, Mingtai Sun, Suhua Wang**. A magnetically induced self-assembly of Ru@Fe₃O₄/rGO cathode for diclofenac degradation in electro-Fenton process [J]. Environmental Research, 2024, 242: 117781.

[2] Bing Qiu, Chao Yuan, Mingtai Sun, Weijie Hu, Hua Tan, Suhua Wang*. Chronoamperometry-based controllable fabrication of gold nanoparticle monolayers and their hydrophobic force-induced movement on indium tin oxide glass substrate [J]. Applied Surface Science, 2023, 614: 156234.

[3] Bing Qiu, Yongyou Hu*, Chaoyang Tang, Yuancai Chen, Jianhua Cheng. Degradation of diclofenac via sequential reduction-oxidation by Ru/Fe modified biocathode dual-chamber bioelectrochemical system: Performance, pathways and degradation mechanisms [J]. Chemosphere, 2022, 291(Part 2)🔗👬：132881.

[4] Bing Qiu, Yongyou Hu*, Chaoyang Tang, Yuancai Chen, Jianhua Cheng. Simultaneous mineralization of 2-anilinophenylacetate and denitrification by Ru/Fe modified biocathode double-chamber microbial fuel cell [J]. Science of the Total Environment, 2021, 792: 148446.

[5] Bing Qiu, Yongyou Hu*, Chen Liang, Luxiang Wang, Yan Shu, Yuancai Chen, Jianhua Cheng. Enhanced degradation of diclofenac with Ru/Fe modified anode microbial fuel cell: Kinetics, pathways and mechanisms [J]. Bioresource Technology, 2020, 300: 122703.

[6] Chaoyang Tang, Bing Qiu*, Yongyou Hu**, Donghui Liang, Yuancai Chen, Jianhua Cheng. Crucial roles of microbial community and in-situ synthetic bio-Ru⁰ on diclofenac degradation and bioelectricity generation in a microbial fuel cell integrated electrocatalytic process [J]. Biochemical Engineering Journal, 2024, 204:109229.