师资
唐友宏教授,现任南方科技大学自动化与智能制造学院长聘教授。唐教授长期从事先进功能材料与智能制造技术研究,围绕国家高端制造与绿色低碳发展重大需求,在“新型材料加工方法驱动的功能材料构筑及其智能系统的开发与工程应用”方面开展了系统性与原创性研究。其课题组聚焦材料科学、先进制造与智能系统深度交叉,在基础理论、关键方法与工程应用三个层面开展科学研究与实践。
教育经历
1996-2000 武汉理工大学
2000-2002 武汉理工大学
2002-2007 香港科技大学
工作经历
2007-2009 香港科技大学 副研究员
2010-2012 华南理工大学 助理教授/副教授
2011 悉尼大学 副研究员
2012-2015 澳大利亚研究理事会(ARC) 发现计划青年学者(DECRA)
2017 香港科技大学 访问副教授
2023 聚集诱导发光高等研究院 访问高级顾问
2012-2026 弗林德斯大学 讲师/高级讲师/副教授/教授/Matthew Flinders冠名教授
弗林德斯大学 纳米科学与技术中心 学术带头人 (2013-2026)
弗林德斯大学 中澳个人健康技术联合中心 执行主任 (2019-2023)
弗林德斯大学 医学器械研究所 生物材料与生物传感方向 学术负责人 (2021-2026)
2024,2026 科钦科技大学 访问教授
2023,2026 拜罗伊特大学 访问教授
2026-至今 弗林德斯大学 名誉教授
2026-至今 南方科技大学 长聘教授
研究领域
· 聚集诱导发光功能材料与智能传感系统
· 涡旋流体介导的功能材料高值化转化及智能制造技术
· 海洋能量收集与智能感知技术
· 可持续先进复合材料与智能制造
代表文章
聚集诱导发光功能材料与智能传感系统
· H Wu, Y Yan, Q Peng, Y Tang. Aggregation-induced emission of carbon quantum dots: Mechanisms and applications. Applied Physics Reviews 12 (4), 041304, 2025.
· SF Rakhi, AHMM Reza, B Davies, J Wang, J Qin, Y Tang. Improvement of growth and lipid accumulation in microalgae with aggregation-induced emission-based nanomaterials towards sustainable lipid production. Nanoscale 17 (3), 1308-1316, 2025.
· S Rakhi, AHMM Reza, B Davies, J Wang, Y Tang, J Qin. Aggregation‐induced emission photosensitizer boosting algal growth and lipid accumulation. Small 20 (47), 2402463, 2024.
· J Wang, N Ninan, NH Nguyen, MT Nguyen, R Sahu, TT Nguyen, A Mierczynska-Vasilev, K Vasilev, VK Truong, Y Tang. Biomimetic bacterium-like particles loaded with aggregation-induced emission photosensitizers as plasma coatings for implant-associated infections. ACS Applied Materials & Interfaces 16 (15), 18449-18458, 2024.
· Q Hu, M Iwanaga, Y Tang. Metasurface platform incorporating aggregation induced emission based biosensor for enhanced human serum albumin detection. Advanced Optical Materials 12 (23), 2400868, 2024.
· D Tohl, ATT Pham, J Li, Y Tang. Point-of-care image-based quantitative urinalysis with commercial reagent strips: Design and clinical evaluation. Methods 224, 63-70, 2024.
· ATT Pham, D Tohl, A Wallace, Q Hu, J Li, KJ Reynolds, Y Tang. Developing a fluorescent sensing based portable medical open-platform-a case study for albuminuria measurement in chronic kidney disease screening and monitoring. Sensing and Bio-Sensing Research 37, 100504, 2022.
· D Tohl, MN Teferra, A Wallace, ATT Pham, Y Tang. Re-referencing and calibration for robust ratiometric light intensity measurement. IEEE Transactions on Instrumentation and Measurement 71, 1-8, 2022.
· Y Tang, BZ Tang. Handbook of Aggregation-Induced Emission (Volume I, II, III). Wiley, 2022.
· Y Tang, BZ Tang. Aggregation-induced emission. Springer, 2021
涡旋流体介导的功能材料高值化转化及智能制造技术
· C Chuah, X Luo, J Tavakoli, Y Tang, CL Raston. Thin‐film flow technology in controlling the organization of materials and their properties. Aggregate 5 (1), e433, 2024.
· X Cao, S He, X Luo, J Gao, Y Tang, CL Raston. Stability and cleansing function enhancement of organic shampoo by a vortex fluidic device. ACS Sustainable Chemistry & Engineering 12 (14), 5533-5543, 2024.
· S He, K Vimalanathan, P Su, M Jellicoe, X Luo, W Xing, W Cai, CT Gibson, Y Chen, JWC Wong, W Zhang, Y Tang, C L Raston. Upsized vortex fluidic device enhancement of mechanical properties and the microstructure of biomass-based biodegradable films. ACS Sustainable Chemistry & Engineering 9 (43), 14588-14595, 2021.
· J Tavakoli, C Raston, Y Ma, Y Tang. Vortex fluidic mediated one-step fabrication of polyvinyl alcohol hydrogel films with tunable surface morphologies and enhanced self-healing properties. Science China Materials 63, 1310–1317, 2020.
· J Tavakoli, S Pye, AHMM Reza, N Xie, J Qin, CL Raston, BZ Tang, Y Tang. Tuning aggregation-induced emission nanoparticle properties under thin film formation. Materials Chemistry Frontiers 4 (2), 537-545, 2020.
海洋能量收集与智能感知技术
· Y Wang, Y Tang. Ocean wave energy generators and self‐powered wave sensors based on triboelectric nanogenerators. Advanced Energy and Sustainability Research 7 (1), e202500232, 2026.
· Y Wang, H Zhu, W Xing, D Tohl, Y Tang. A hybrid self-powered wave sensing device enables low-amplitude wave sensing. Device 3 (3), 100575, 2025.
· Y Wang, ATT Pham, X Han, D Du, Y Tang. Design and evaluate the wave driven-triboelectric nanogenerator under external wave parameters: Experiment and simulation. Nano Energy, 106844, 2022.
· M Khorsand, J Tavakoli, H Guan, Y Tang. Artificial intelligence enhanced mathematical modeling on rotary triboelectric nanogenerators under various kinematic and geometric conditions. Nano Energy 75, 104993, 2020.
· M Khorsand, J Tavakoli, K Kamanya, Y Tang. Simulation of high-output and lightweight sliding-mode triboelectric nanogenerators.Nano Energy 66, 104115, 2019.
可持续先进复合材料与智能制造
· L Chen, W Xing, J Chong, Q Jiang, Y Ouyang, L Wu, Y Tang. Analysing impact characteristics of composite helical springs with multi-braided layers based on virtual fiber model. Composites Communications 53, 102255, 2025.
· L Chen, W Xing, J Chong, Q Jiang, Y Ouyang, L Wu, Y Tang. Understanding stiffness degradation of composite helical springs with multi-braided layers under impact. Composites Part A: Applied Science and Manufacturing 185, 108327, 2024.
· L Chen, J Chong, Q Jiang, L Wu, Y Tang. Understanding the static performance of composite helical springs with braided nested structures. Composites Part A: Applied Science and Manufacturing 176, 107822, 2024.
· L Mao, Y Jiao, H Geng, Y Tang. Understanding friction and wear properties of carbon fiber/epoxy stitched composites. Composites Part A: Applied Science and Manufacturing 169, 107501, 2023.
· L Chen, W Xing, L Wu, J Chong, T Lei, Q Jiang, Y Tang. Understanding multiple parameters affecting static and dynamic performances of composite helical springs. Journal of Materials Research and Technology 20, 532-550, 2022.
所获荣誉
· 2008 美国项目管理协会(PMI) 项目管理专业人士(PMP)
· 2012 澳大利亚研究理事会(ARC) 发现计划青年学者基金(DECRA)
· 2012 弗林德斯大学 校长优秀青年科研人员奖
· 2018 英国皇家化学会 会士(FRSC)
· 2021 澳大利亚皇家化学会 特许会士(CFRACI)
· 2021 澳大利亚材料协会 认证材料专业人士(CMatP)
· 2022 弗林德斯大学 校长高等学位研究指导卓越奖
· 2024 国际先进材料协会 会士(FIAAM,瑞典)
· 2025 澳大利亚皇家化学会 环境化学奖章
其他
Aggregate, Wiley (2020-), Applied Composite Materials, Springer (2020-), Scientific Reports, Nature (2023-), PhotoAgregate, Wiley (2026-) 编委会委员。中国化学会 分子聚集发光专业委员会 委员。
