潘梅兰

毕业于南开大学，曾任职于新加坡南洋理工大学，主要从事水体污染物控制与资源化/能源化研究。近五年以第一或通讯作者发表系列高水平学术论文，包括Environmental Science & Technology 、 Advanced Functional Materials 、Nano Energy等环境材料专业top期刊，申请并授权多项国家发明专利，主持并参与国家重大研发专项在内的研究项目。

1.面向全量化处理高盐有机废水的多效热电膜开发及机制研究，浙江省优秀青年科学基金项目，LZYQ25B060001，2025.01-2027.12，主持

·    2. 基于压电复合材料表面微区电场调控对重金属络合废水的处理及机理研究，NSFC青年科学基金项目，22106139，2022.01-2024.12，主持

·     3. 压电复合材料表面微区电场调控对重金属络合物的去除及机理研究，省属高校基本科研业务费（科技类）项目 RF-A2022009，2022.12-2024.12，主持

1.  4. 运河青年学者项目启动经费，2021-2025，主持

·    5. 膜蒸馏海水提锂技术开发，企业委托（200万），2023.10-2026.10，主持

·    6. 智能化巡检模块应用功能开发，企业委托，2023.5-2023.12，主持

·     7. 电脑芯片中贵金属离子的绿色回收研究，企业委托，2023.7-2025.6，主持

·     8. 基于膜法污水深度处理减污降碳装置的研发，企业委托（201万），2023.5-2025.5，主研

·     9. 联合研发新能源新材料领域技术及产业应用，企业委托（150万），2024.4-2027.4，主研

· 

·     

[1]     Meilan Pan; Cong Li, Xiuzhen Wei, Guanyu Liu, Edison Huixiang Ang, Bingjun Pan*. Pioneering Piezoelectric-Driven Atomic Hydrogen for Efficient Dehalogenation of Halogenated Organic Pollutants.Environmental Science & Technology 2024, 58, 4008-4018.

[2]     Meilan Pan, Chen Zhang, Jiong Wang, Jia Wei Chew, Guandao Gao*, Bingcai Pan. Multifunctional Piezoelectric Heterostructure of BaTiO₃@ Graphene: Decomplexation of Cu-EDTA and Recovery of Cu, Environmental Science & Technology2019, 53, 8342-8351.

[3]     Meilan Pan, Chao Shan, Xiaolin Zhang, Chanyuan Zhu, Gaoguandao*, Bingcai Pan. Environmentally Friendly in situ Regeneration of Graphene Aerogel as a Model Conductive Adsorbent. Environmental Science & Technology2018, 52, 739-746.

[4]     Meilan Pan, Yanyang Zhang, Chao Shan, Xiaolin Zhang, Guandao Gao*, and Bingcai Pan. Flat Graphene Enhanced Electron Transfer Involved in Redox Reactions. Environmental Science & Technology2017, 51(15) 8597-8605.

[5]     Meilan Pan, Haijun Zhang, Guandao Gao*, Lu Liu, and Wei Chen. Facet-dependent Catalytic Activity of Nanosheets-Assembled BiOI Microspheres in Degradation of Bisphenol A. Environmental Science & Technology2015, 10, 6240-6248.

[6]     Hanwen Gong; Lingling Xu; Cong Li; Meilan Pan *; Minghua Zhou*. Axially Coordinated Dual-Atomic-Site Catalysts for Nearly 100% Peroxymonosulfate Conversion to ¹O₂ in Membrane Filtration. Applied Catalysis B: Environment and Energy 2024, 355, 124202.

[7]     Zhongyuan Wang (1), Meilan Pan (1), Hao Hu, Qingqing Zhou, Huadong Yuan, Yinxi Han, Liangxu Zhou, Jiade Wang*. Unlocking the One-Step Recovery of Solid S8 Products through Sulfur. Applied Catalysis B: Environment and Energy 2024, 358, 124386.

[8]     Meilan Pan, Subiao Liu, Jia Wei Chew*. Realizing the Intrinsic Electrochemical Activity of Acidic N-doped Graphene through 1-Pyrenesulfonic Acid Bridges. Advanced Functional Materials 2020, 30, 2001237.

[9]     Meilan Pan, Subiao Liu, Bingjun Pan*, Jia Wei Chew*. Directionally Tailoring the Macroscopic Polarization of Piezocatalysis for Hollow Zinc Sulfide on Dual-Doped Graphene. Nano Energy 2021, 88, 106312.

[10]  Meilan Pan, Subiao Liu, Jia Wei Chew*. Unlocking the High Redox Activity of MoS₂ on Dual-doped Graphene as a Superior Piezocatalyst. Nano Energy 2020, 68, 104366.

[11]  Kefan Shi, Marliyana Aizudin, Meilan Pan*, Edison Huixiang Ang*. Ultimate Water Capillary Evaporation in Bamboo-Inspired Evaporator. Materials Horizons 2025, DOI: 10.1039/d4mh01667j.

[12]  Ziyi Huang, Xinjie Shen, Yuxuan Wei, Jia Wei Chew, Edison Huixiang Ang*, Meilan Pan*. A Novel Approach to Chiral Separation: Thermal-Sensitive Hydrogel Membranes. Materials Horizons 2025, doi.org/10.1039/D4MH00895B.

[13]  Yuxuan Wei, Lingling Xu, Kefan Shi, Hanwen Gong, Jiaming Hu, Xianghao Zhang, Meilan Pan*, Edison Huixiang Ang*. Mechanistic Insights into the Hydrogel-Supported Catalyst for Superior Oxygen Evolution Performance. Chemical Engineering Journal 2025, 506, 160021.

[14]  Xiuzhen Wei, Zelong Chen, Liangliang Xu, Yue Li, Xuekang Zhang, Xianghao Zhang, Qinghua Zhou*, Meilan Pan*. Engineering Brønsted Acid Sites for Enhanced Nonradical Pathways in Antibiotic Contaminant Degradation. Chemical Engineering Journal 2024, 500, 157225.

[15]  He Jiang, Xinkai Li, Feili Li, Shuang Song, Yan Yu, Meilan Pan*, Weiting Yu*. Anchoring Atomic Pd on Molybdenum Disulfide with State-of-the-Art Specific Activity in the Electrochemical Dehalogenation of Florfenicol. Chemical Engineering Journal 2024, 499， 156481.

[16]  Meilan Pan, Yongzen Tan, Jia Wei Chew*. Superior Membrane Distillation by Induction Heating of 3D rGO/Nafion/Ni Foam for Water Treatment. Journal of Membrane Science 2020, 616, 118609.

[17]  Meilan Pan, Jiong Wang, Guandao Gao, Jia Wei Chew*. Incorporation of Single Cobalt Active Sites onto N-doped Graphene for Superior Conductive Membranes in Electrochemical Filtration. Journal of Membrane Science 2020, 602, 117966.

[18]  Meilan Pan, Junjian Li, Xue Zhang, Subiao Liu, Jiawei Chew, Bingjun Pan*. Axially Coordinated Co-N₄ Sites for the Electroreduction of Nitrobenzene, Journal of Materials Chemistry A 2023, 11, 5095-5103.

[19]  Meilan Pan, Lingling Xu, Jianheng Hong, Zelong Chen, Xiuzhen Wei, Jiong Wang, Bingjun Pan*. Oxygen Vacancy-Laden Confinement Impact on Degradation of Metal Complexes. ACS Applied Materials & Interfaces 2024, 16, 26624-26633.

[20]  Meilan Pan, Xue Zhang, Chenglei Pan, Jiong Wang, Bingjun Pan*. Identification of Co-O-Mo Active Centers on Co-Doped MoS₂ Electrocatalyst, ACS Applied Materials & Interfaces 2023, 15, 19695-19704.

[21]  Meilan Pan, Shuang-Yin Tang-Hu, Cong Li, Jianheng Hong, Subiao Liu, Bingjun Pan*. Oxygen Vacancy-Mediated Peroxydisulfate Activation and Singlet Oxygen Generation toward 2,4-Dichlorophenol Degradation on Specific CuO_1-x Nanosheets. Journal of Hazardous Materials 441, 2023, 129944.

[22]  Junjian Li; Hanwen Gong; Yuxuan Wei; Jie Ma; Xingui Li; Meilan Pan *; Minghua Zhou*. High Energy-Efficiency Decomplexation of Metal-Complexes by H*-Mediated Electro-Reduction on Hydroxyphenyl Co-Porphyrin Catalysts. Journal of Hazardous Materials 2024, 476, 135227.

[23]  Meilan Pan, Jiong Wang, Ming Hua, Guandao Gao, Xin Wang, Jia Wei Chew*. Augmentation of Hydroxyl Groups as Electrocatalytic Active Sites in Porous Graphene, Carbon 2019, 154, 384-390.

[24]  Guandao Gao*, Meilan Pan and Chad D. Vecitis. Effect of Oxidation Approach on Carbon Nanotube Surface Functional Groups and Electrooxidative Filtration Performance. Journal of Materials Chemistry A 2015, 3, 7575-7582.

[25]  Jiaming Hu, Jianheng Hong, Weiting Yu, Xiuzhen Wei and Meilan Pan*. Boosting Cu Ion Capture in High-Salinity Environments with Amino-Functionalized Millispheres. Nanoscale, 2025,17, 5106-5115

[26]  Meilan Pan, Zhihao Chen, Chao Shan, Yanfeng Wang, Bingcai Pan, Guandao Gao*. Photochemical Activation of Seemingly Inert SO₄^2- Specific Water Environments. Chemosphere 2019, 214, 399-407.

[27]  Meilan Pan, Jie Ding, Guandao Gao*, Lin Duan, Lu liu, Wei Chen. Photochemical Activity and Mechanism of Aqueous Fe³⁺ in Phototransformation of Bisphenol A. Chemosphere 2017, 167, 353-359.

[28]  Meilan Pan, Xue Zhang, Junjian Li, Jia Wei Chew, Bingjun Pan*. Stimulating the Intrinsic Activities of the MoS₂ Nanosheet Coated on S, N-Graphene for Efficient Membrane Electrofiltration, ACS ES&T Water 2023, 3, 1963-1971.

[29]   Meilan Pan, Shuang-yin Tang-hu , Chenhao Ni , Haihua Chen , Bingjun Pan*. Constructing Ti(III)-laden TiO₂ Nanotube Arrays for Electrochemical Defluorination of Levofloxacin. Journal of Environmental Chemical Engineering 2023, 11, 109392.

[30]   Meilan Pan, Chao Shan, Shengqi Guo, Bingcai Pan, Guandao Gao*. Enhanced Photochemical/Electrochemical Performance of Graphene Benefited from Morphological Change as Substrate of Typical Composites. Advanced Materials Interfaces2019, 5, 1800035.