蒋旭洲

材料科学与工程学院副教授

电子邮件

jiangxzh7@mail.sysu.edu.cn

基本简介 Basic Information

职称/Position：副教授（学术兼专业博导）/Associate Professor (Doctoral Supervisor)

学位/Degree：博士/Ph. D.

毕业学校/Education：香港科技大学/HKUST、浙江大学/Zhejiang University

主要兼职/Peer Reviewers：Advanced Materials、Nanoscale Research Letter、Journal of Materials Science等国际期刊独立审稿人

电子邮件/Email：jiangxzh7@mail.sysu.edu.cn

个人主页/Personal Website：暂无（N/A）

学历 Education Background

本科/Bachelor：浙江大学主修：材料与化学工程学院；辅修：竺可桢学院（工程教育高级班）

Zhejiang University, Major: College of Chemical Engineering & Bioengineering, Minor: Chu Kochen Honors College (ACEE)

博士/Ph. D.：香港科技大学机械工程系；导师：张统一院士

Hong Kong University of Science and Technology, Department of Mechanical Engineering, Supervisor: Prof. Tong-Yi Zhang

学术经历 Work Experience

博士后/Postdoctoral：佐治亚理工学院，制造研究所；导师：Chuck Zhang 教授

Georgia Institute of Technology, Georgia Tech Manufacturing Institute, Supervisor: Prof. Chuck Zhang

学科方向Research Interests

所在学科/Discipline：材料物理/Material Physics

研究方向/Directions：海洋工程材料与装备、纳米功能材料（摩擦起电材料、吸波材料等）、传感材料与器件（细胞微生物传感器、海洋传感器等）、柔性电子材料等

Marine engineering materials & equipment, nanomaterials, sensing materials & devices, flexible electronic materials, etc

研究兴趣/Interests：海洋防腐蚀与防污损、深海/极地材料服役安全、智能材料在海工装备中的应用、柔性电子材料在生物医学中应用等

Anti-corrosion and anti-biofouling in marine engineering, in-service safety of materials in deep-sea or polar environment, smart materials in marine engineering equipment, flexible electronic materials in biomedical applications,etc.

招收上述方向的学术/专业硕士、博士研究生（由每年分配名额情况而定），有航海经验或立志建设海洋强国的学生优先。
Welcome to postgraduate applications in aforementioned directions.

学术业绩Academic Performance

在ACSNano、Chemical Engineering Journal、NanoEnergy、Small等国际高水平学术期刊发表论文40篇，其中第一/通讯作者21篇；申请发明专利27项（授权4项）；先后承担国家级项目2项（负责1项，500万；参与1项，分担80万）、省部级项目6项（负责5项，367万；参与1项，分担100万）、市级项目1项（负责，5万）、横向项目1项（负责，20万），合计以项目/课题负责人承担经费892万元，以参与人分担经费180万元；于中国材料大会2025等作邀请报告及担任分会场主持人2次，其他口头报告1次；担任“珠海云”南海海域新型海工装备技术验证及材料腐蚀研究综合航次（ZHY-2025-006）首席科学家。

Published 40 papers in international high-level journals such as ACS Nano, Chemical Engineering Journal, Nano Energy, and Small, applied 27 invention patents (4 granted), awarded 10.72 million RMB as research funding, gave 3 oral presentations(2 invited and serving as the section host), andserved as the chief scientist of 1 voyage of the Zhuhai Yun Research Vessel (No. ZHY-2025-006).

荣誉获奖 Awards

中山大学“百人计划”青年学术骨干（2021）
中山大学第十二届教师教学竞赛初赛工科课程教学组最具工科特色奖（2024）
第十三届“华港杯”广东大学生材料创新大赛优秀指导老师（2024）
中山大学第十三届教师教学竞赛初赛工科课程教学组二等奖（2025）

代表论著（近两年） Recent Publications

(完整列表链接更新于2025.8.9/Full list link updated on 2025.8.9：https://docs.qq.com/doc/DR2prcVdoc1JESHBj)

2025年：

[1] Zhou Z, …, Jiang X^*. Low-voltage alternating electric field-based repelling method for biofouling microorganisms and its mechanism. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2025;718:136950. (25年中科院2区; JCR Q2)

[2] Li S, …, Jiang X^*. Neural-structured Co@C/MWCNTs nanocomposites with low-frequency microwave absorption and corrosion resistance. Chemical Engineering Journal 2025;516:164057. (25年中科院1区Top; JCR Q1)

[3] Zuo-Jiang S, …, Jiang X^*, …. Research on pitting corrosion of 316 stainless steel in the deep-sea water and sediments of the South China Sea. Materials Characterization 2025;225:115176. (25年中科院2区; JCR Q1)

[4] Xiang M, …, Jiang X^*, …. Pitting corrosion simulation from UH₃ expansion in uranium hydrogen environment with a validation through existing experimental data. Journal of Nuclear Materials 2025;610:155783. (25年中科院2区; JCR Q1)

[5] Huang X, …, Jiang X^*. Underwater high-performance flag-shaped triboelectric nanogenerator for harvesting energy in ultraslow water current. Nano Energy 2025;135:110664. (23年中科院1区Top; JCR Q1)

[6] Xiang M, …, Jiang X^*, …. Numerical simulation of oxidative corrosion of metallic uranium in a confined environment with a validation through existing experimental data. Journal of Materials Research and Technology 2025;35:5421-30. (23年中科院2区Top; JCR Q1)

[7] Li N, Jiang X^*, …. A Liquid Metal-Based Temperature-Responsive Low-Toxic Smart Coating for Anti-Biofouling Applications in Marine Engineering. Small Methods 2025;9:2401028. (23年中科院2区; JCR Q1)

[8] Li N, …, Jiang X^*, …. The interaction mechanism of titanium alloy TC4 between passive film and sulfate reducing bacteria biofilm in marine environment. Applied Surface Science 2025;690:162620. (23年中科院2区Top; JCR Q1)

[9] Wu R, …, Jiang X, …. Hierarchical multi-shell hollow porous NiO/Co₃O₄ nanospheres with enhanced dielectric-magnetic synergy for high-efficiency microwave absorption. Chemical Engineering Journal 2025;520:166063. (25年中科院1区Top; JCR Q1)

[10] Li S, …, Jiang X, …. Heterogeneous interface engineering of bionic corn-structured ternary nanocomposites for excellent low-frequency microwave absorption. Materials Today Physics 2024;42:101390. (23年中科院2区; JCR Q1)

2024年：

[11] Xiang M, …, Jiang X^*, …. Enhanced irradiation tolerance of the body-centered cubic structured FeCrW medium-entropy alloy as revealed from primary damage process. Materials Today Communications 2024;40:109635. (23年JCR Q2)

[12] Hu K, …, Jiang X^*, …. Microstructure regulation and performance of titanium alloy coating with Ni interlayer on the surface of mild steel by laser cladding. Surface and Coatings Technology 2024;487:130939. (23年中科院2区Top; JCR Q1)

[13] Hu K, …, Jiang X^*, …. The relationship between an input energy density and the microstructure evolution of the Ti-6Al-4V alloy via laser remelting. Materials Characterization 2024;209:113703. (23年中科院2区; JCR Q1)

[14] Hu K, Jiang X^*, …. Solidification and corrosion mechanisms: A novel metallurgical bonding Ti-6Al-4V coating on mild steel. Surface and Coatings Technology 2024;476:130258. (23年中科院2区Top; JCR Q1)

[15] Li S, …, Jiang X, …. Heterogeneous interface engineering of bionic corn-structured ternary nanocomposites for excellent low-frequency microwave absorption. Materials Today Physics 2024;42:101390. (23年中科院2区; JCR Q1)

[16] Zhang L, …, Jiang X, …. Facile and precise synthesis of core-shell ZnO/C nanorods with excellent microwave absorption. Diamond and Related Materials 2024;148:111490. (23年JCR Q2)

[17] Li S, …, Jiang X, …. Lightweight Fe₃O₄/Fe/C/rGO multifunctional aerogel for efficient microwave absorption, electromagnetic interference shielding, hydrophobicity and thermal insulation. Chemical Engineering Journal 2024;498:155405. (23年中科院1区Top; JCR Q1)

[18] Zhang L, …, Jiang X, …. Template-sacrificing synthesis of hollow Co@C nanorods for excellent microwave absorption. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2024;699:134610. (23年中科院2区; JCR Q2)

[19] Zhang L, …, Jiang X, …. Construction of hierarchical ZnO-NiCo2O4-NiCo2O4 core-shell microstructure with efficient microwave absorption. Applied Surface Science 2024;649:159203. (23年中科院2区Top; JCR Q1)