教育背景
2014/09—2019/07,中国科学院广州地球化学研究所,获博士学位(硕博连读)
2017/07—2017/09,2017/12—2018/12,澳大利亚昆士兰科技大学,联合培养博士研究生,未来环境学院
2010/09—2014/07,武汉理工大学,9999js金沙老品牌环境工程专业,获学士学位
工作履历
2021/10—至今,9999js金沙老品牌,副教授
2019/07—2021/09,中国科学院广州地球化学研究所,博士后
学术兼职
《当代化工研究》编委
《International Journal of Environmental Research and Public Health》客座编辑
研究领域
1.污水处理及土壤修复:高级氧化、光催化、吸附。
2.新型矿物功能材料研制:天然纳米含铁矿物的研制及在环境领域的高效利用。
3.固废资源化利用:农业固废及尾矿的高值利用。
奖励与荣誉
1. 2022年9999js金沙老品牌第八届教师教学基本功比赛,二等奖,院级
2. 2019年获中国科学院院长特别奖,校级
3. 2018年获博士研究生国家奖学金,校级
4. 2019年获中国科学院大学“三好学生标兵”称号,校级
5. 2017、2018、2019年获中国科学院广州地球化学研究所研究生优秀科研成果奖,院级
6. 2016年获3rd Asian Clay Conference Excellent Presentation Award
主持项目
1.国家重点研发项目:重金属复合污染土壤长效超稳成矿化材料制备技术与应用示范,2024/01-2027/12,60万元,在研,子课题负责人。
2. 国家自然科学青年科学基金项目:草酸铁矿-水热碳复合材料同步去除镉砷的机制研究,2023/01-2025/12,30万元,在研,主持
3.2023年度广州市基础研究计划基础与应用基础研究项目:铁碳耦合高效芬顿催化剂的研制及有机物降解机制研究,2023/04-2025/03,5万元,在研,主持
4. 学院高层次人才引进突出人才项目,2021/11-2026/10,60万元,在研,主持
5.2019年博士后创新人才支持计划:生物炭-水铁矿复合物活化双氧水的作用机制,2019/12-2022/12,60万元,结题,主持
6.第66批中国博士后科学基金面上资助二等资助:碳颗粒增强水铁矿活化双氧水的作用机制,2019/12-2022/12,8万元,结题,主持
7.国家重点研发项目:工业集聚区土壤-地下水有机污染综合防治技术及应用—在产工业集聚区土壤-地下水有机污染综合防治技术集成与工程示范,2022/12-2026/11,625万元,在研,参与
8.2022年广东省重点领域研发计划:耕地土壤有机污染物化学-生物协同消减研究与示范,2023/01-2023/12,500万元,在研,参与
9.省科技专项资金“大专项+任务清单”河源市科技计划项目:新型矿物质土壤调理剂的精准研制及其在农田土壤耦合修复中的应用示范,50万元,在研,参与
10.中澳昆士兰合作项目:Novel and highly efficient Fenton catalysts synthesized by coupling iron-bearing mineral with hydrothermal carbon(含铁矿物-水热碳高效芬顿催化剂的研制及污染治理应用),2020/12-2022/12,120万元,在研,中方主要参与人
11.国家自然科学基金面上项目:典型纳微米颗粒对水铁矿表面反应性及相转变
过程的影响,2019-2022,66万,参与
12.国家自然科学基金面上项目:粘土矿物与富勒烯/富勒醇表界面作用特征研究,2016-2019,74万,结题,参与
13.国家自然科学基金优秀青年基金项目:矿物表/界面物理化学,2014-2016,100万,结题,参与
学术成果
一、发表论文:
1 1.Zhu YP, Xie QR, Deng FX, Ni ZB, Lin QQ, Cheng LL, Chen XJ, Qiu RL, Zhu RL*. The differences in heterogeneous Fenton catalytic performance and mechanism of various iron minerals and their influencing factors: A review. Separation and Purification Technology, (2023): 124702.
2. 2.Deng FX, Chen QZ, Zhu YP*, Liang XL, Zhu RL*, Xi YF. Hydrothermally treated peat/magnetite composites as highly efficient heterogeneous Fenton catalyst: Integrating multiple reaction mechanisms to enhance the catalytic reactivity for BPA removal. Chemical Engineering Journal, 473 (2023): 144946.
3. 3. Xie QR, Zhu YP*, Xian HY, Chen QZ, Liu CS, Wu F, Liang XL, Zhu RL*. The complex heterogeneous Fenton reactivity of transition metal-doped ferrihydrite: insight from the structural variation and pathway of H2O2 activation. Applied Surface Science 622 (2023): 156913.
4. 4. Zhu YP, Xie QR, Zhu RL*, Xi YF, Zhu JX, Jian Fan. Hydrothermal carbons/ferrihydrite heterogeneous Fenton catalysts with low H2O2 consumption and the effect of graphitization degrees. Chemosphere287 (2022): 131933.
5. 5. Zhu RL*, Zhu YP, Xian HY, Yan LX, Fu HY, Zhu GQ, Xi YF*, Zhu JX, He HP. CNTs/ferrihydrite as a highly efficient heterogeneous Fenton catalyst for the degradation of bisphenol A: The important role of CNTs in accelerating Fe(III)/Fe(II) cycling. Applied Catalysis B: Environmental (2020): 118891.
6. Zhu YP, Zhu RL*, Xi YF*, Zhu JX, Zhu GQ, He HP.Strategies for enhancing the heterogeneous Fenton catalytic reactivity: A review.Applied Catalysis B: Environmental 255 (2019): 117739.
7.Zhu YP, Zeng C, Zhu RL*, Xu Y*, Wang XY, Zhou HJ, Zhu JX, Zhu JX, He HP. TiO2/Schwertmannite nanocomposites as superior co-catalysts in heterogeneous photo-Fenton process. Journal of Environmental Sciences80 (2019): 208-217.
8.Zhu YP, Zhu RL*, Yan LX, Fu HY, Xi YF*, Zhou HJ, Zhu GQ, Zhu JX, He HP. Visible-light Ag/AgBr/ferrihydrite catalyst with enhanced heterogeneous photo-Fenton reactivity via electron transfer from Ag/AgBr to ferrihydrite. Applied Catalysis B: Environmental239 (2018): 280-289.
9.Zhu YP, Zhu RL*, Xi YF, Xu TY, Yan LX, Zhu JX, Zhu GQ*, He HP.Heterogeneous photo-Fenton degradation of bisphenol A over Ag/AgCl/ferrihydrite catalysts under visible light. Chemical Engineering Journal346 (2018): 567-577.
10.Zhu YP, Zhu RL*,Zhu GQ*, Wang MM, Chen YN, Zhu JX, Xi YF, He HP. Plasmonic Ag coated Zn/Ti-LDH with excellent photocatalytic activity. Applied Surface Science433 (2018) 458-467.
11.Zhu YP, Zhu RL*, Chen QZ, Laipan MW, Zhu JX, Xi YF, He HP. Calcined Mg/Al layered double hydroxides as efficient adsorbents for polyhydroxy fullerenes. Applied Clay Science151 (2018) 66-72.
12.Zhu YP, Laipan MW, Zhu RL*,Xu TY, Liu J, Zhu JX*, Xi YF, Zhu GQ, He HP. Enhanced photocatalytic activity of Zn/Ti-LDH via hybridizing with C60. Journal of Molecular Catalysis A: Chemical427 (2017): 54-61.
13. Wang Y, Xiao Y, Wang YF*, Lin QQ, Zhu YP, Ni ZB*, Qiu RL. Electroreductive Defluorination of Unsaturated PFAS by a Quaternary Ammonium Surfactant-Modified Cathode via Direct Cathodic Reduction[J]. Environmental Science & Technology, 57.19 (2023): 7578-7589.
14.Ma J, Xie MX, Zhao N, Wang Y, Lin QQ, Zhu YP, Chao YQ, Ni ZB, Qiu RL. Enhanced trichloroethylene biodegradation: The mechanism and influencing factors of combining microorganism and carbon‑iron materials[J]. Science of The Total Environment, 878 (2023): 162720.
1 15.Li, N, Huo, JL, Zhang, Y, Ye, B, Chen, XJ*, Li, XF, He JH, Chen X, Tang YT, Zhu YP, Ling KY, Zhu, RL*. (2023). Transition metal Carbides/Nitrides (MXenes): Characteristics, synthesis, functional modification and photocatalytic application. Separation and Purification Technology, 125325.
16.Chen, XJ, Yao, L, He, JH, Li, JS, Xu, S, Li, N*, Zhu YP,. Chen X, Zhu, RL*. Enhanced degradation of tetracycline under natural sunlight through the synergistic effect of Ag3PO4/MIL-101 (Fe) photocatalysis and Fenton catalysis: Mechanism, pathway, and toxicity assessment. Journal of Hazardous Materials, 449, (2023). 131024.
17.Chen, XJ, Xu, ZP, Chen, JM, Yao, L, Xie, WC, He, JH, Li, N*, Li JS, Xu, S, Zhu YP, Chen Xin, Zhu, RL*. Continuous surface Z-Scheme and Schottky heterojunction Au/La2Ti2O7/Ag3PO4 catalyst with boosted charge separation through dual channels for excellent photocatalysis: Highlight influence factors regulation and catalytic system applicability. Separation and Purification Technology, 123414 (2023).
18.He QZ, Zhu RL*, Chen QZ, Zhu YP, Yang YP, Du J, Zhu JX, He HP. One-pot synthesis of the reduced-charge montmorillonite via molten salts treatment. Applied Clay Science 186 (2020) 105429.
19.Hou K, Wang GF, Zhu YP, Ezzatahmadi, N, Fu, LJ, Tang, AD, Yang, HM*, Xi, YF*. Sepiolite/Fe3O4 composite for effective degradation of diuron. Applied Clay Science 181 (2019) 105243.
20.Jiang Q, Zhu RL, Zhu YP, Chen QZ*. Efficient degradation of cefotaxime by a UV+ferrihydrite/TiO2+H2O2 process: the important role of ferrihydrite in transferring photo-generated electrons from TiO2 to H2O2. Journal of Chemical Technology and Biotechnology (2019).
21.Liu J, Zhu RL*, Xu TY, Laipan MW, Zhu YP, Zhou Q, Zhu JX, and He HP. Interaction of polyhydroxy fullerenes with ferrihydrite: Adsorption and aggregation. Journal of Environmental Sciences 64 (2018) 1-9.
22.Xu TY, Zhu RL*, Zhu GQ, Zhu JX, Liang XL, Zhu YP, He HP. Mechanisms for the enhanced photo-Fenton activity of ferrihydrite modified with BiVO4 at neutral pH. Applied Catalysis B: Environmental212 (2017): 50-58.
23.Chen QZ, Zhu RL*, Zhu YP, Liu J, Zhu LF, Ma LY, Chen M. Adsorption of polyhydroxy fullerene on polyethylenimine-modified montmorillonit. Applied Clay Science 132–133 (2016) 412-418.
24.朱雁平*,傅浩洋,张江宏. 施氏矿物同时吸附磷酸根和Cd(II)的研究, 当代化工研究, 121 (2022) 164-167.
二、授权专利:
1. 朱润良, 朱雁平, 陈情泽, 刘晶, 朱建喜, 何宏平. 银-卤化银负载铁纳米矿物的复合材料及其制备方法.专利公开号:ZL201710879813.6.
2. 朱润良, 陈情泽, 傅浩洋, 朱雁平, 朱建喜, 何宏平. 一种用于重金属离子吸附的改性二硫化钼及其制备方法. 专利公开号:ZL201710308449.8.
3. 朱雁平,朱润良,陈情泽. 一种高芬顿反应活性的水热碳-草酸铁矿复合材料的制备方法. 专利公开号:ZL202110958312.3
三、教学活动
1.教学课程:
《环境学基础》、《环境材料学》、《土壤与地下水污染防控与修复》、《土壤污染控制与低碳修复技术》
2.教改项目:
基于一体两性教学模式的低碳农业土壤治理课程体系构建,学院,在研,参与
寄语学生