朱昊辰 - 同济大学 - 环境科学与工程学院

个人简介

教育经历 2008/10 - 2011/09，雷恩一大，化学工程，博士 2006/09 - 2008/07，里尔一大，物理化学系，硕士 2002/09 - 2006/07，上海大学，环境工程，学士工作经历 2012/10 - 至今，同济大学，环境科学与工程学院，讲师，副教授 2015/08 - 2016/09，中华人民共和国科学技术部，国际合作司欧洲处 2011/10 - 2012/10，法国巴黎中央理工大学，博士后获奖荣获2014年度第十届国际膜与膜过程会议青年学术奖 2015年获得上海市科学技术二等奖：废旧家电典型部件资源化处理技术/20154041-2-R06 荣获2016年中国石油和化学工业优秀出版物一等奖荣获2018-2019年度同济大学校优秀班主任荣获2020-2021年度同济大学新生院优秀班主任 2019年度“苗圃计划”人才培养组织奖第34界上海市青少年科技创新大赛二等奖，作为指导老师上海市青少年“明日科技之星”科技希望奖，作为指导老师 2011年度国家优秀自费留学生奖学金 2021年度同济大学中原环保-胡家骏环境教育奖励金

研究领域

水污染控制与治理及基于膜技术的高品质饮用水处理。主要聚焦于：（1）纳滤膜为代表的压力驱动膜传递机理与膜过程研究（2）水处理分离膜材料的调控制备及膜表面改性研究（3）限域体系下粒子的物理特性及动力学特征研究

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Zhu, H.; Szymczyk, A.; Balannec, B. Influence of an inhomogeneous membrane charge density on the rejection of electrolytes by nanofiltration membranes. Desalination and Water Treatment 2010,18(1-3), 182-186, DOI: 10.5004/dwt.2010.1768.2. Szymczyk, A.; Zhu, H.; Balannec, B. Ion Rejection Properties of Nanopores with Bipolar Fixed Charge Distributions. Journal of Physical Chemistry B 2010,114(31), 10143-10150, DOI: 10.1021/jp1025575. Szymczyk, A.; Zhu, H.; Balannec, B. Pressure-Driven Ionic Transport through Nanochannels with Inhomogenous Charge Distributions. Langmuir 2010,26(2), 1214-1220, DOI: 10.1021/la902355x. Zhu, H.; Szymczyk, A.; Balannec, B. On the salt rejection properties of nanofiltration polyamide membranes formed by interfacial polymerization. Journal of Membrane Science 2011,379(1), 215-223, DOI: https://doi.org/10.1016/j.memsci.2011.05.062. Ghoufi, A.; Morineau, D.; Lefort, R.; Hureau, I.; Hennous, L.; Zhu, H.; Szymczyk, A.; Malfreyt, P.; Maurin, G. Molecular simulations of confined liquids: An alternative to the grand canonical Monte Carlo simulations. Journal of Chemical Physics 2011,134(7), DOI: 10.1063/1.3554641. Zhu, H.; Ghoufi, A.; Szymczyk, A.; Balannec, B.; Morineau, D. Computation of the hindrance factor for the diffusion for nanoconfined ions: molecular dynamics simulations versus continuum-based models. Mol. Phys. 2012, 110 (11-12), 1107-1114, DOI: 10.1080/00268976.2011.645896. Zhu, H.; Ghoufi, A.; Szymczyk, A.; Balannec, B.; Morineau, D. Anomalous dielectric behavior of nanoconfined electrolytic solutions. Physical review letters 2012,109(10), 107801. Reou, R.; Ghoufi, A.; Szymczyk, A.; Zhu, H.; Neyt, J. C.; Malfreyt, P. Nanoconfined Electrolyte Solutions in Porous Hydrophilic Silica Membranes. Journal of Physical Chemistry C 2013,117(21), 11017-11027, DOI: 10.1021/jp403450x. Zhu, H.; Ghoufi, A.; Szymczyk, A.; Balannec, B.; Morineau, D. Comment on "Anomalous Dielectric Behavior of Nanoconfined Electrolytic Solutions" Reply. Physical Review Letters 2013,111(8), DOI: 10.1103/PhysRevLett.111.089802. Renou, R.; Ding, M.; Zhu, H.; Szyrnczyk, A.; Malfreyt, P.; Ghoufi, A. Concentration Dependence of the Dielectric Permittivity, Structure, and Dynamics of Aqueous NaCl Solutions: Comparison between the Drude Oscillator and Electronic Continuum Models. Journal of Physical Chemistry B 2014, 118 (14), 3931-3940, DOI: 10.1021/jp4118419. Thibault, K.; Zhu, H.; Szymczyk, A.; Li, G. The averaged potential gradient approach to model the rejection of electrolyte solutions using nanofiltration: Model development and assessment for highly concentrated feed solutions. Separation and Purification Technology 2015, 153, 126-137, DOI: https://doi.org/10.1016/j.seppur.2015.08.041. Mai, Z. H.; Butin, V.; Rakib, M.; Zhu, H. C.; Rabiller-Baudry, M.; Couallier, E. Influence of bulk concentration on the organisation of molecules at a membrane surface and flux decline during reverse osmosis of an anionic surfactant. Journal of Membrane Science 2016, 499, 257-268, DOI: 10.1016/j.memsci.2015.10.012. Zhu, Y.; Zhu, H.; Li, G.; Mai, Z.; Gu, Y. J. J. o.N. R. The effect of dielectric exclusion on the rejection performance of inhomogeneously charged polyamide nanofiltration membranes. 2019, 21 (10), 217. Zhu, Y.; Zhu, H.; Li, A.; Li, G.; Mai, Z.; Gu, Y. Investigating the effect of inhomogeneous fixed charge distribution on dielectric exclusion in nanofiltration membranes. Desalination and Water Treatment 2019, 166, 1-8. 李艾铧,朱云杰,朱昊辰*,李光明,顾玉亮.纳滤技术在饮用水处理中的应用[J].净水技术,2019,38(06):51-56. Zhu, H.; Yang, F.; Zhu, Y.; Li, A.; He, W.; Huang, J.; Li, G. Investigationof dielectric constants of water in a nano-confined pore. RSC Advances 2020,10(15), 8628-8635, DOI: 10.1039/C9RA09399K. Zhu, H.; Hu, B.; Hu, H.; Zhu, Y.; He, W.; Huang, J.; Li, G. Influence of the oxidation rate on the dielectric properties of water confined in graphene bilayers. Journal of Molecular Liquids 2020,317, 113995, DOI: https://doi.org/10.1016/j.molliq.2020.113995. Zhu, H.; Bennani, FE.; Bennani, D.; Abdelhafeez, IA.; Zhu, Y. Removal of typical pollutants from water sources of Chouara Tannery by the integration of coagulation-flocculation and activated carbon treatment. Desalination and water treatment2020, 196,67-75, DOI: 10.5004/dwt.2020.25955. 朱昊辰,李光明.面向“十四五”上海社会发展领域民生科技的需求与展望[J].世界科学,2020(S2):43-45. Zhu, H.; Hu, B.; Hu, H.; He, W.; Huang, J.; Li, G. Tunable dielectric constant of water confined in graphene oxide nanochannels. Journal of Molecular Liquids 2021,324, 115139, DOI: https://doi.org/10.1016/j.molliq.2020.115139. Zhu, H.; Hu, H.; Hu, B.; He, W.; Huang, J.; Li, G. Reply to the ‘Comment on “Investigation of dielectric constants of water in a nano-confined pore”’ by S. Mondal and B. Bagchi, RSC Adv., 2020, 10, DOI: 10.1039/D0RA02726J. RSC Advances 2021,11(10), 5753-5754, DOI: 10.1039/D0RA07194C. Zhu, H.; Hu, B.; Yang, F. Removal of Sulfadiazine by Polyamide Nanofiltration Membranes: Measurement, Modeling, and Mechanisms. Membranes 2021,11(2), 104. 胡晗,朱昊辰,徐竟成,李光明.应用纳米材料复合膜去除饮用水中病原体[J].科学,2021,73(03):29-32+4. H. Zhu*, B. Hu, Dielectric Properties of Aqueous Electrolyte Solutions Confined in Silica Nanopore: Molecular Simulation vs. Continuum-Based Models, Membranes, 12 (2022) 220. B. Hu, H. Zhu*, The Dielectric Constant of Confined Water in a Bilayer Graphene Oxide Nanosystem, Chemical Journal of Chinese Universities, 43 (2022) 2021061