所属学院：

材料与能源学院

导师类别：

硕士生导师

科研方向：

医用覆膜材料，多功能薄膜涂层

联系方式：

Wuxi0011@e.ntu.edu.sg

招生学院：

材料与能源学院

个人简述

新加坡南洋理工大学获得博士学位。于2019 年7月加入广东工业大学，担任特聘副教授。研究方向包括功能涂层（水下防污、防冰、防冷凝）和医用材料应用领域。本人在功能表面研究领域拥有十多年经验，担任过30多种期刊的审稿人，并拥有多项美国专利。主持新加坡自然科学基金1项，中国国家自然科学基金青年基金1项，企业横向多项，参与广东省海上风电联合基金重点项目1项，是广东省国防科技工业重点实验室(海洋技术与装备)骨干成员。博士期间的相关工作获得了2019年南洋理工大学材料科学专业（2019 QS 世界排名第三）“最优博士论文”奖。

学科领域

科学学位：材料科学与工程/动力工程及工程热物理

专业学位：材料工程/动力工程

教育背景

2014年8月  在新加坡南洋理工大学, 材料科学与工程  获博士学位

2006年9月  在东北大学, 材料科学与工程, 获硕士学位

2002年9月  在东北大学, 材料科学与工程, 获学士学位

工作经历

2019年7月至今  在广东工业大学材料与能源学院  担任特聘副教授

2018年10月  在新加坡南洋理工大学SJ-NTU联合重点实验室  担任博士后

学术兼职

Surfaces期刊编辑

THINFILMS 2026国际薄膜大会分会共同主席

国家技术转移中级职业经理人

主要荣誉

2023年  获中国大学生机械工程创新创意大赛材料热处理创新创业赛 “二等奖”

2023年  获广东工业大学首届科普讲解大赛 “二等奖”

2021年  获材料与能源学院青年教师教学竞赛 “一等奖”

2019年  获新加坡南洋理工大学材料科学与工程学院“最佳博士论文奖”

主要论文

[1] X. Wu*, J. Mai, Z. Ye, L. Wei, Y. Pan. “Anticondensation and Anti-icing Properties of Bendable Superhydrophobic Coatings with Enhanced Mechanical Stability”, ACS Omega, 11, 7, 12296 – 12307

[2]  X. Wu, X. Zhou, K. Xu, Gu. Tan, J. Mai, Z. Ye, Y. Lai, J. Huang, J. Hu, Z. Chen. “Nano-grid enhanced hierarchical structure construction for a durable, bendable, anticondensation and passive–active anti-/deicing surface”. Journal of Materials Chemistry A, 2025, (中科院一区TOP)

[3] S. Ke; J. Li; R. Li; J. Zhu; Y. Chen; Jun. Hu; Y. Lai*; J. Huang*; X. Wu*; Z. Chen*. “Recent developments in the fabrication, performance, and application of transparent superhydrophobic coating”，Advances in Colloid and Interface Science，2025, 342, 103537 (中科院一区TOP)

[4] X. Wu; J Tang; Z Ye; Z He; J Liang; R Yan; J Hu; S Zheng. “A candle soot based multi-layer superhydrophobic coating with anti-condensation and anti-biofouling properties”. Surface and Coatings Technology, 2025, 503, 132000. (JCR Rank Q1)

[5] X. Wu; Z. Han; Y. Wang; Y. Pan; X. Jie. “A route towards durable underwater stable superhydrophobic surfaces: PET-reinforced candle soot layers”. Surfaces, 2024, 7(2), 225-237.

[6] X. Wu; Y. Pan; Z. Han; Y. Shen. “Does anti-condensation coatings guarantee anti-Icing properties?” Applied Surface Science, 2024, 649, 159101. (JCR Rank Q1)

[7] X. Wu; M. Xiao; J. Zhang; G. Tan; Y. Pan; Y. Lai; Z. Chen. “An underwater stable superhydrophobic surface for robust ultra-long-lasting biofouling resistance”, Chemical Engineering Journal, 2023, 462: 142091. (中科院一区)

[8] X. Wu; K. Wang; J. Zhang; X. Jie; Z. Chen; Y. Lai. “A polyester-silica anti-condensation surface with anti-fouling property”, Chemical Engineering Journal, 2022, 440, 135934. (中科院一区)

[9] X. Wu; F. Yang; G. Lu; X. Zhao; Z. Chen; S. Qian. “A breathable and environmentally friendly superhydrophobic coating for anti-condensation applications”, Chemical Engineering Journal, 2021, 412: 128725-128735. (中科院一区)

[10] X. Wu; Y. Shen; S. Zheng; Z.T. Hu; Z. Chen. “Clarifying the Correlation of Ice Adhesion Strength with Water Wettability and Surface Characteristics“, Langmuir, 2020, 36(41): 12190−12201.（JCR Rank Q2）

[11] X. Wu; X. Zhao; J. Ho; Z. Chen. “Design and durability study of environmental-friendly room-temperature processable icephobic coatings”, Chemical Engineering Journal, 2019, 355: 901-909. (中科院一区)

[12] X. Wu; Z. Chen. “A Mechanically Robust Transparent anti-icing coatings for anti-icing and self-cleaning applications”, Journal of Materials Chemistry A, 2018, 6(33): 16043-16052. (中科院一区)

[13] X. Wu; Y. Tang; V. V. Silberschmidt; P. Wilson, Z. Chen. “Mechanically robust transparent anti-icing coatings: roles of dispersion status of titanate nanotubes”, Advanced Materials Interface, 2018, 5, 1800773. (JCR Rank Q1)

[14] X. Wu; S. L. Zheng; D. A. Bellido-Aguilar; V. V. Silberschmidt; Z. Chen. “Transparent icephobic coatings using bio-based epoxy resin”, Materials and Design, 2018, 140, 516-523. (JCR Rank Q1)

[15] X. Wu; Q.T. Fu; D. Kumar; J.W.C. Ho; P. Kanhere; H.F. Zhou; Z. Chen. “Mechanically robust superhydrophobic and superoleophobic coatings derived by sol-gel method”, Materials & Design, 2016, 86, 1302-1309. (JCR Rank Q1)

[16] X. Wu; V.V. Silberschmidt; Z. Chen. “Design of anti-icing coatings based on superhydrophobicity via a sol-gel Method”, Surface Coatings and Technology, 2019, 358, 207-214. (JCR Rank Q1)

[17] Y. Shen; X. Wu; J. Tao; Y. Lai; Z. Chen. “Icephobic Materials: Fundamentals, Performance Evaluation, and Applications”, Progress in Materials Science, 2019, 103, 509-577. (中科院一区TOP)

[18] Y. Shen; M. Jin; X. Wu; J. Tao; X. Luo; H. Chen; Y. Lu; Y. Xie. “Understanding the frosting and defrosting mechanism on the superhydrophobic surfaces with hierarchical structures for enhancing anti-frosting performance”, Applied Thermal Engineering, 156, 2019, 111-118. (JCR Rank Q1)

[19] D. Kumar; X. Wu; Q. T. Fu; J. W. C. Ho; P. D. Kanhere; L. Li; Z. Chen. “Hydrophobic sol-gel coatings based on polydimethylsiloxane for self-cleaning applications”, Materials & Design, 2015, 86, 855-862. (JCR Rank Q1)

[20] D. Kumar; X. Wu; Q. T. Fu; J.W.C. Ho; P.D. Kanhere; L. Li; Z. Chen. “Development of durable self-cleaning coatings using organic-inorganic hybrid sol-gel method”, Applied Surface Science, 2015, 344, 205-212. (JCR Rank Q1)

[21] Q. Fu; X. Wu; D. Kumar; J.W.C. Ho; P.D. Kanhere; N. Srikanth; E.J. Liu; P. Wilson; Z. Chen. “Development of sol-gel icephobic coatings: effect of surface roughness and surface energy”, ACS Applied Materials & Interfaces, 2014, 20685-20692. (中科院一区)

[22] S. Zheng; D.A. Bellido-Aguilar; X. Wu; X. Zeng; Z. Chen. “Waterborne superhydrophobic bio-epoxy coating on Al alloy for corrosion-resistant and self-cleaning applications”, Surface and Coatings Technology, 2025, 496, 131621. (JCR Rank Q1)

[23] S. Zheng; D.A. Bellido-Aguilar; X. Wu; X. Zhan; Y. Huang; X. Zeng; Q. Zhang; Z. Chen. “Durable waterborne hydrophobic bio-epoxy coating with improved anti-icing and self-cleaning performance”, ACS Sustainable Chemistry & Engineering, 2018, 7(1), 641-649. (中科院一区)

[24] T. Ding; N. Wang; C. Wang; X. Wu; W. Liu; Q. Zhang; W. Fan; X.W. Sun. “Solution-processed inorganic copper (I) thiocyanate as a hole injection layer for high-performance quantum dot-based light-emitting diodes”, RSC Advances, 2017, 7, 26322-26327. (JCR Rank Q2)

[25] X. Tai; C. Liu; W. Chen; Y. Mai; L. Zhang; X. Wu; X. Jie. “Electroplated wear and corrosion–resistant Co-Mo/CeO2 composite coatings for reducing mold fouling application”, Journal of Solid State Electrochemistry, 2023, 27(3), 679-694. (JCR Rank Q4)

知识产权

[1] 武兴华; 麦俊贤; 徐凯航; 何政晖; 唐嘉兴; 孟伟. 一种柱状棒芯、支架的编织方法及其支架, 中国发明专利, 2025-03-25, CN202410894480.4.

[2] 武兴华; 方成; 肖明豪; 程强; 徐凯航; 叶展朗; 陈海燕. 一种花状微纳双层结构超疏水涂层及其制备方法, 中国发明专利, 2025-09-23, CN202411598660.4.

[1] X. Wu; G. Tan; M. Xiao; W. Meng. Method for Constructing Porous Micronano Structure, and Material with Porous Micro-nano Structure, 2023-12-26, US 11,851,771B1.

[2] P. Kanhere; W. C. Ho; X. Wu; E. Chua; S. Narasimalu; K. See; Z. Chen; J. González; M. Sarriguren; R. Ortigosa. Microwave absorbing composite for turbine blade applications, 2019-7-16, US 10, 355,366 B2.

[3] Z. Chen, J. L. Gonzalez Moral, J. W. C. Ho, P. Kanhere, R. Martinez Ortigosa, X. Wu, Polymeric Composition with Anti-icing and Self-cleaning Properties, 2019-8-1, US 2019 / 0233675 A1.

[4] 武兴华, 谭国煌, 肖明豪, 孟伟. 一种构筑多孔微纳结构的方法及具有多孔微纳结构的材料，中国发明专利，2022-5-18, ZL 2022 1 0542970.9

,,

科研项目

[1] 2026. 01至2027. 12新疆生产建设兵团第十三师红星医院医工融合专项项目，20万元，主持

[2] 2024. 05至2025. 04风电叶片耐磨耐蚀疏水涂层，企业横向，20万，主持

[3] 2024. 07至2026. 07无人机叶片覆膜与防冰材料，企业横向，20万，主持

[4] 2024. 11至2028. 10海上风电设施无人化运维技术，广东省基金重点项目，100万，参与

[5] 2024. 06至2029. 05广工-成至校企联合实验室，企业横向，100万，参与

[6] 2023. 09至2024. 08广东工业大学医工中心揭榜项目， 28万，主持

[7] 2021. 01至2023. 12国家自然科学基金青年项目，24万，主持

[8] 2011. 01至2011. 12 Sol-gel-derived environmentally stable nanostructured single defogging layer with persistent superhydrophilicity, 4th NRF Proof-of-Concept (POC) Grant, Singapore. 新加坡国家自然科学基金，25万新币，主持