臧法珩 博士,上海交通大学微纳电子学系,长聘教轨副教授
2008年和2011年分别在上海交通大学获得本科和硕士学位,2016在美国马里兰大学电子与计算机工程系获得博士学位。先后在美国普林斯顿大学任博士后研究员,美国歌尔电子任首席工程师。2021年9月加入上海交通大学微纳电子学系,获上海市海外高层次人才。
主要研究方向为纳米光学器件、微纳生化传感器、微系统集成。在Advanced Materials, Biosensors and Bioelectronics, Chemical Communications等期刊以第一作者、通讯作者发表多篇高水平期刊文章,在Transducers, EIPBN等国际会议发表十余篇会议论文并多次口头报告。在美国Goertek Electronics担任首席工程师期间,负责晶圆级衍射光波导纳米制造研发,申请发明专利6项。
目前主持国自然面上项目、上海交大深蓝基金、企业项目,参与科技部重点研发青年科学家项目等纵向、横向应用基础科研项目。
研究方向与招生:
欢迎对微纳制造,纳米光学器件,微系统,微纳传感器等方向感兴趣的学生报考博士、硕士研究生,本科生可以报名PRP研究计划;
目前正招聘微纳传感器、微纳制造相关方向博士后2名。
联系方式:
Email: zangfh@sjtu.edu.cn
代表性论文:
1. M. Wang, H. Cai, Z. Su*, Z. Yang, G. Ding, F. Zang*,Narrow-Gap-Integrated Ring Arrays (GRA) as Ultrahigh Field-Enhancement Optical Resonators,Advanced Functional Materials, 2025, 35 (13), 2417739
2.D. Xie, Y. Sun, Y. Wu, K. Wang, G. Wang, F. Zang*, G. Ding*, "Engineered Switchable-Wettability Surfaces for Multi-Path Directional Transportation of Droplets and Subaqueous Bubbles", Advanced Materials, 2022, 2208645
3. F. Zang, Z. Su, L. Zhou , K. Konduru, G. Kaplan, S. Y. Chou, “Ultrasensitive Ebola virus antigen sensing via 3D nanoantenna arrays. Advanced Materials, 31(30), 1902331
4. F. Zang, K. Gerasopoulos, A. D. Brown, J. N. Culver and R. Ghodssi, “Capillary microfluidics-assembled virus-like particle bio-nano-receptor interfaces for label-free biosensing,” ACS Applied Materials & Interfaces, 2017, vol. 9, no. 10, pp. 8471-8479.
5. F. Zang, S. Chu, K. Gerasopoulos, J. N. Culver, and R. Ghodssi, “Rapid biofabrication of Tobacco mosaic virus-nanoscaffolded electrochemical redox supercapacitors,” Nanotechnology, 2017, vol. 28, 265301
6. F. Zang, K. Gerasopoulos, X. Z. Fan, A. D. Brown, J. N. Culver and R. Ghodssi, “Real-time Monitoring of Macromolecular Biosensing Probe Self-assembly and On-chip ELISA using Impedimetric Microsensors,” Biosensors and Bioelectronics, 2016, vol. 81, pp. 401-407.
7. F. Zang, K. Gerasopoulos, X. Z. Fan, A. D. Brown, J. N. Culver, and R. Ghodssi, “An electrochemical sensor for selective TNT sensing based on Tobacco mosaic virus-like particle binding agents,” Chemical Communications, 2014, vol. 50, pp. 12977-12980.
期刊论文:
[1] Ma, X.; Wang, J.; Li, J.; Ren, Y.; Wu, D.; Su, Z.; Ma, J.; Yang, Z.; Ding, G.; Zang, F., “Visually encoded mechanoluminescence through hierarchical structuring with microscale patterns and nanoscale features,” Nature Communications, 2025, vol. 16, no. 1, pp. 9550.
[2] Wang, M.; Cai, H.; Su, Z.; Yang, Z.; Ding, G.; Zang, F., “Narrow-gap-integrated ring arrays (GRA) as ultrahigh field‐enhancement optical resonators,” Advanced Functional Materials, 2024, vol. 35, no. 13, pp. 2417739.
[3] Zhang, S.; Cui, D.; Tang, Y.; Yang, Q.; Su, Z.; Huang, W.; Zang, F., “Asymmetrical infrared metasurfaces for augmented marine microplastic detection,” Chemical Engineering Journal, 2026, vol. 535, no. pp. 175346.
[4] Wang, M.; Jiang, L.; Mei, R.; Shi, H.; Xu, Y.; Su, Z.; Ding, G.; Zang, F., “Tunable gold-on-SiO2 nanopillar arrays with functionalized nanoporous layer for enhanced fluorescence immunoassays,” Advanced Optical Materials, 2025, vol. 13, no. 29, pp. e01591.
[5] Wu, D.; Shi, H.; Jiang, L.; Wang, M.; Wang, Y.; Su, Z.; Zang, F., “Broadband mid-infrared metasurface absorbers enabled by scalable microfabrication,” Optics Letters, 2025, vol. 50, no. 18, pp. 5690-5693.
[6] Jiang, L.; Shi, H.; Ran, W.; Wang, M.; Wang, Y.; Ding, G.; Zang, F., “Thin-film evaporators enhanced by asymmetric microstructure arrays with cuticle-like sidewall textures,” Device, 2026, vol. 4, no. 3, pp. 101048.
[7] Shi, H.; Wang, M.; Lu, X.; Li, Y.; Ge, B.; Yang, Z.; Ding, G.; Zang, F., “Conformal Integration of Microfabricated Thin‐Film Thermocouples for In Situ Turbine Blade Thermal Characterization,” Advanced Materials Technologies, 2026, vol. 0, no. pp. e00973.
[8] Shi, H.; Wang, M.; Ma, X.; Wu, D.; Jiang, L.; Su, Z.; Zang, F., “Integration of Optical Metamaterials on Curved Surfaces for Non‐Contact Temperature Sensing,” Advanced Optical Materials, 2026, vol. 14, no. 8, pp. e03858.
[9] Wang, M.; Shi, H.; Wu, D.; Jiang, L.; Su, Z.; Yang, Z.; Ding, G.; Zang, F., “Enabling Ion Milling Redeposition Nano‐Templates for Scalable Nanofabrication of Chemical‐Sensing Metamaterials with 10 nm‐Feature Size,” Advanced Optical Materials, 2026, vol. 14, no. 12, pp. e00012.
[10] Wang, M.; Wu, D.; Shi, H.; Su, Z.; Yang, Z.; Zang, F., “Research progress and new applications of nanoimprint lithography,” Journal of Functional Meterials and Devices, 2026, vol. 32, no. 1, pp. 013101.
会议论文:
[1] Chen, Z.; He, B.; Xia, T.; Yang, Q.; Cui, D.; Huang, W.; Yang, Z.; Zang, F. A Hybrid MIR-spectrum Processing Algorithm for Microplastics Analysis. In 2024 7th International Conference on Electronics Technology (ICET), 2024.
[2] Cui, D.; Wang, M.; Su, Z.; Zang, F. An asymmetrical 3D subwavelength metasurface with tunable morphology for refractive index sensing. In 2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), 2024.
[3] Wang, M.; Cui, D.; Su, Z.; Zang, F. A High-aspect-ratio Gold Nanoring Array Optical Resonator. In 2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), 2024.
[4] Jiang, L.; Ran, W.; Wu, D.; Zang, F. Vertically Asymmetrical Microstructures for Enhanced Thin-Film Evaporation Cooling. In 2025 IEEE 20th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS), 2025.
[5] Wang, M.; Jiang, L.; Mei, R.; Shi, H.; Xu, Y.; Su, Z.; Yang, Z.; Ding, G.; Zang, F. An Ion-Milling Fabricated Nanoring Array as High-Sensitivity Fluorescence. In 2026 IEEE 39th International Conference on Micro Electro Mechanical Systems (MEMS), 2026.
