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/PeerReviewers:Advanced Materials、Advanced Healthcare Materials、ACS Applied Materials & Interfaces、Journal of Alloys and Compounds、Journal of Nuclear Materials、Journal of Materials Science、Nanoscale Research Letters、IEEE International Conference on Microelectronics等国际期刊/学术会议独立审稿人
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、范智勇 教授
Hong Kong University of Science and Technology, Department of Mechanical Engineering, Supervisor: Prof. Tong-Yi Zhang, Prof. Zhiyong Fan
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.
常年招收上述方向的学术/专业硕士、博士研究生以及博士后,有航海经验 或 立志建设海洋强国的学生和青年学者优先。
Welcome to postgraduate and postdoctoral applications in aforementioned directions.
学术业绩 Academic Performance
在Advanced Composites and Hybrid Materials、Corrosion Science、ACS Nano、Nano Energy、Chemical Engineering Journal等国际高水平学术期刊发表论文45篇,其中第一/通讯作者28篇;申请发明专利42项(授权11项,其中美国专利1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7项(负责6项,445万;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970万元,以参与人分担经费180万元;于中国材料大会2025等作分会场邀请报告及主持人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 45 papers in international high-level journals such as Advanced Composites and Hybrid Materials, Corrosion Science, ACS Nano, Nano Energy, and Chemical Engineering Journal, applied 42 invention patents (11 granted,including 1 US patent), awarded 11.50 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
(更新于2026.4.15,最新完整列表链接/Updated on 2026.4.15,newest full list link:https://docs.qq.com/doc/DR2prcVdoc1JESHBj)
2026年:
[1] Tian Y, …, Jiang X*. Composition-driven phase structures in laser-deposited titanium-steel composites: microstructural evolution and interfacial strengthening mechanisms. Advanced Composites and Hybrid Materials 2026;9:194. (25年中科院1区Top; JCR Q1)
[2] Zhou Z, …, Jiang X*. A low-voltage alternating electric field strategy against Phaeodactylum tricornutum: Anti-biofouling mechanism under electrical stimulation. Bioelectrochemistry 2026;169:109180. (25年中科院2区; JCR Q1)
[3] Li Y, …, Jiang X*. Titanium-steel composite plate with hot-rolled microstructures and its enhanced corrosion resistance in marine environment. Corrosion Science 2026;259:113469. (25年中科院1区Top; JCR Q1)
[4] Wu R, …, Jiang X, …. Flower-like Multi-Shell Hollow Microsphere Enhances Dielectric-Magnetic Synergy for Efficient Microwave Absorption in C-Band. ACS applied materials & interfaces 2026;18:8622-35. (25年中科院2区; JCR Q1)
2025年:
[5] Zhou Z, …, Jiang X*. Influence of low-voltage alternating electric fields on the formation of conditional films in marine environments. Langmuir 2025;41:34152-60. (25年中科院2区; JCR Q2)
[6] 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)
[7] 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)
[8] 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)
[9] 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)
[10] 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)
[11] 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)
[12] 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)
[13] 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)
[14] 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)
[15] Zhang L, …, Jiang X, …. Heterogeneous interface engineering of rod-like M−Mo−N (M = Co, Ni) bimetallic nitrides for efficient microwave absorption. Applied Surface Science 2025;688:162400. (23年中科院2区Top; JCR Q1)
