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个人简介

教育背景 2016.09-2021.07 清华大学,机械工程系,博士 2019.10-2020.04 伦敦大学学院,化学系,研究助理 2012.09-2016.07 东北大学,机械工程及自动化,本科 工作经历 2021.07 至 今 四川大学,机械工程学院,副研究员/副教授 主要从事机械表界面技术、仿生微纳制造、油水分离技术、多场耦合仿真分析、分子动力学模拟等方面的研究。作为负责人主持国家自然科学基金青年项目、四川省重点研发和摩擦学国家重点实验开放基金等多个科研项目;作为学术骨干参与国家重点研发、国家自然科学基金面上项目等多项国家级项目;获中国机械工业科学技术发明二等奖(2021年)。迄今为止在ACS Applied Materials Interfaces, Journal Membrane Science和机械工程学报等TOP期刊上发表SCI论文20余篇,1篇入选ESI高被引论文。 开设课程 本科生课程:《机械设计》、《机械设计课程设计》 研究生课程:《界面科学与技术》 科研项目: ·国家自然科学基金青年项目,界面曲率梯度驱动的乳化液聚结破乳及机理研究,2023.01-2025.12,主持 ·四川省重点研发项目,基于胶体颗粒界面自组装的仿生功能材料关键技术研究,2022.01-2023.12,主持 ·国家重点实验室开放基金,乳化液界面润湿行为及破乳研究,2022.01-2023.12,主持 ·四川大学引进人才科研启动经费资助项目,表界面效应控制及应用研究,2021.9-2023.12,主持 ·国家重点研发计划,高浓废润滑油破乳聚并-精细蒸馏-催化加氢关键技术与示范,2020.01-2022.12,参与 ·国家自然科学基金面上项目,基于液固界面效应的滤膜破乳及机理研究,2018.01-2021.12,参与 ·国家自然科学基金青年项目,可3D打印生物高分子水凝胶材料设计及电控平滑肌驱动单元构建,2018.01-2020.12,参与 ·国家体育总局科研项目,冬季项目运动减阻关键技术及平台研究-空气动力学减阻及测评,2020.10-2022.12,参与 授权专利 [1] 汪家道,陈朝浪,杜川. 聚四氟乙烯表面修饰滤料及其制备方法,发明专利: ZL201811106703.7. [2] 李晖; 陈朝浪; 任朝晖; 姜世杰; 马辉; 李鹤; 闻邦椿,一种可调节偏心质量的旋转激振器,发明专利:ZL201510821206.5 [3] 陈述平; 孙聪; 陈朝浪; 蒲敏; 马明旭; 杜聪聪; 李武军; 李旭升; 吕飞,一种无人机发射与回收装置及其方法,发明专利:ZL201510632889.X

研究领域

·机械表界面技术 ·仿生微纳制造 ·油水分离技术 ·多物理场模拟 ·分子动力学模拟

近期论文

查看导师新发文章 (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)

[1] Chen, C*.; Chen, L., Weng, D.; Chen, S.; Liu, J.; Wang, J.; Revealing the mechanism of superwetting fibrous membranes for separating surfactant-free water-in-oil emulsions. Separation and Purification Technology 2022, 288, 120621. (IF=7.3) [2] Chen, C.; Chen, S.; Chen, L.; Yu, Y.; Weng, D.; Mahmood, A.; Wang, G.; Wang, J*., Ivan P. Parkin., Carmalt, Claire J. Underoil Superhydrophilic Metal Felt Fabricated by Modifying Ultrathin Silica Coatings for Separation of Water-in-Oil Emulsions. ACS Applied Materials Interfaces 2020, 12, 27663-27671. (IF=9.2) [3] Chen, C.; Chen, L.; Chen, S.; Yu, Y.; Weng, D.; Mahmood, A.; Wang, G.; Wang, J*. Preparation of Underwater Superoleophobic Membranes via TiO2 Electrostatic Self-Assembly for Separation of Stratified Oil/Water Mixtures and Emulsions. Journal of Membrane Science. 2020, 602, 117976. (IF=8.7) [4] Chen, C.; Chen, L.; Weng, D.; Li, X; Li, Z; Wang, J*. Simulation Study on the Dynamic Behaviors of Water-in-Oil Emulsified Droplets on the Coalescing fibers. Langmuir. 2020, 36, 14872-14880 (IF=3.9) [5] Chen, C.; Weng, D.; Mahmood, A.; Chen, S.; Wang, J*. Separation Mechanism and Construction of Surfaces with Special Wettability for Oil/Water Separation. ACS Applied Materials Interfaces 2019, 11, 11006-11027. (IF=9.2) [6] Chen, C.; Weng, D.; Chen, S.; Mahmood, A.; Wang, J*. Development of Durable, Fluorine-free, and Transparent Superhydrophobic Surfaces for Oil/Water Separation. ACS Omega 2019, 4 (4), 6947-6954. (IF=3.5) [7] Chen, C.; Du, C.; Weng, D.; Mahmood, A.; Feng, D.; Wang, J*. Robust Superhydrophobic Polytetrafluoroethylene Nanofibrous Coating Fabricated by Self-Assembly and Its Application for Oil/Water Separation. ACS Applied Nano Materials 2018, 1 (6), 2632-2639. (IF=5.1) [8] Chen, C.; Weng, D.; Mahmood, A.; Wang, J*. Ultra-robust Superhydrophobic/superoleophilic Stainless Mesh Coated by PTFE/SiO2 for Oil/water Separation. MRS advances. 2018, 1, 1-9. (国际会议论文集) [9] Wang, B., Chen, C., Li, Z., Wu, J., Liu, X., Wang, J*. One-step fabrication superhydrophobic Sand filter for capillary-driven separation of water-in-oil emulsions. Chinese Journal of Chemical Engineering. 2021, 32, 70-75. (IF=3.2) [10] Mahmood, A.; Chen, S.; Chen, C.; Weng, D.; Wang, J*. Directional Motion of Water Droplet on Nanocone Surface Driven by Curvature Gradient: A Molecular Dynamics Simulation Study. The Journal of Physical Chemistry C 2018, 122 (26), 14937-14944. (IF=4.5) [11] Mahmood, A.; Chen, S.; Chen, C.; Weng, D.; Wang, J*. Molecular Dynamics Study of Temperature Influence on Directional Motion of Gold Nanoparticle on Nanocone Surface. The Journal of Physical Chemistry C 2019, 123 (7), 4574-4581. (IF=4.5) [12] Wang, G.; Weng, D.; Chen, C.; Chen, L.; Wang, J*. Influence of TiO2 nanostructure size and surface modification on surface wettability and bacterial adhesion. Colloid and Interface Science Communications 2020, 34, 100220. (IF=4.9) [13] Li, X.; Chen, L.; Weng, D.; Chen, C.; Li, Z.; Wang, J. Tension gradient-driven rapid self-assembly method of large-area colloidal crystal film and its application in multifunctional structural color displays. Chemical Engineering Journal. 2022, 427, 130658. (IF=13.3) [14] Feng, D.; Weng, D.; Chen, C.; Wang, J*. Tension gradient self-assembly to facilely fabricate polytetrafluoroethylene coatings for oil–water separation. MRS Communications 2019, 1-7. (IF=2.6) [15] Chen, S.; Du, C.; Feng, D.; Chen, C.; Wang, J*. A Monte Carlo model for self-assembly of polytetrafluoroethylene nanoparticle films via repulsive electrostatic interactions. Physical Chemistry Chemical Physics 2019, 21, 12477-12484. (IF=3.7) [16] Mahmood, A.; Chen, S.; Chen, L.; Chen, C.; Liu, D.; Weng, D.; Wang, J*. Spontaneous propulsion of a water nanodroplet induced by a wettability gradient: a molecular dynamics simulation study. Physical Chemistry Chemical Physics 2020. (IF=3.7) [17] Yu, Y.; Chen, L.; Weng, D.; Wang, J*. Chen, C.; Mahmood, A., A promising self-assembly PTFE coating for effective large-scale deicing. Progress in Organic Coatings 2020, 147, 105732. (IF=5.2) [18] Chen, S.; Wang, J*. Chen, C.; Mahmood, A., Understanding the Coalescence and Non-Coalescence of Underwater Oil Droplets. Chemical Physics 2019, 110466. (IF=2.4) [19] Mahmood, A.; Chen, L.; Chen, S.; Chen, C.; Yu, Y.; Weng, D.; Wang, J*. Nature-inspired design of conical array for continuous and efficient fog collection application. Colloid and Interface Science Communications 2020, 37, 100283. (IF=4.9) [20] Li X., Feng D., Chen L., Weng D., Chen C., Wang J. Tension gradient-driven liquid/liquid interface rapid self-assembly and its application in microdroplet magnetic motion control. Journal of Colloid Interfaces Science 2021, 589, 187-197 (IF=8.1) [21] Wang, B.; Mahmood, A.; Chen, L.; Weng, D.; Wang, C.; Chen, C.; Li, Z.; Wang, J. Under-oil superhydrophilic salt particle filter for the efficient separation of water-in-oil emulsions. Chemical Communication., 2020, 56, 11585-11588. (IF=6.2) [22] 刘宸旭, 陈朝浪, 张继平, 戴媛静*;油水乳化液的边界润滑行为及机理分析;机械工程学报,2019,55(9),48-84.

学术兼职

担任ACS Applied Materials Interface, Advanced Materials Interfaces和Journal of Materials Processing Technology等10余个期刊的审稿人;兼任中国机械工程学会高级会员、国际仿生工程学会会员

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