1）微结构光纤与多参数光纤传感：围绕折射率、湿度、气体、应力/温度等多参量高灵敏检测与解调。

2）等离激元微纳结构与光场调控：开展金属纳米结构（纳米线/纳米盘/阵列等）与光纤端面集成，提升局域场增强与传感性能。

3）多模态智能融合感知与工程化应用：结合信号处理与算法融合，实现高精度、可部署的传感系统与产业转化。

发表论文：

27. Han J, Ni H, Wang Y, et al. Tunable fiber-end LSPR sensor based on MXene-modified silver nanobowl arrays[J]. Optics Express, 2026, 34(4): 6736-6750.

26. Sheng M, Ni H, Han J, et al. Vertically Aligned CuO Nanowire Arrays on Silicon Substrates for High-Performance Hydrogen Sensing[J]. Sensors and Actuators B: Chemical, 2026: 139519.

25. Wang Y, Ni H, Shi Y, et al. Pd-coated Au core–shell nanorod metamaterial for optical hydrogen sensing[J]. Optics Express, 2026, 34(2): 2266-2280.

24. Zhu W, Ni H, Li Z, et al. A multimodal progressive fusion bearing fault diagnosis algorithm based on residual network[J]. IEEE Sensors Journal, 2025.

23. Isogun, T. A., Ni, H., Chang, J., & Shi, Y. (2025). Stretchable achromatic metalens with ultra-wide focal tunability for near-infrared adaptive optics. Journal of the Optical Society of America B, 42(12), 2649-2660.

22. Vertically Coupled Hybrid Metasurfaces for Multimodal and Tunable Plasmonic Sensing. Cai, T., Ni, H., Wang, T., Wu, W., Wang, Y., Ye, S., Isogun, T.A., Shi, Y., Ni, B. and Chang, J., Advanced Optical Materials, p.e01531. 2025.

21. Plasmonic nano-disc-shaped optical fiber probe，W Wu, H Ni, T Cai, T Rong, J Han, Y Wang, S Ye, B Ni, Y Ge, L Lu, Optics & Laser Technology 188, 112962，2025.

20. Adaptive SOC-OCV mapping-based joint estimation of SOC and SOH in aging lithium-ion batteries using extended Kalman filtering，Z Li, H Ni, W Zhu, B Ni, J Chang, J Cao，Journal of Power Electronics, 1-13，2025.

19. 陈进, 倪海彬, 吴文杰, 等. 非对称银纳米柱的光学特性及制备[J]. Acta Optica Sinica, 2024, 44(22): 2224003-2224003-10.

18. 倪海彬, 沈依, 周俊萍, 等. 基于水凝胶的颜色动态可调的金属-介质-金属结构[J]. Acta Optica Sinica, 2024, 44(9): 0931001-0931001-9.

17. Research and fabrication of color filters based on porous anodic alumina，H Ni, Y Wang, Y Shen, T Cai, W Wu, J Han, B Ni, Y Ge, T Wang, J Chang，Journal of the Optical Society of America B 41 (12), 2764-2772，2024.

16. An EMG Denoising Method Based on Flexible Wearable Sensors，EX Yan, P Lu, HB Ni，IEEE Design & Test，2024.

15. Multimode Optical Fiber Sensor Modified with Gold Nanorod Arrays，H Ni, X Gao, J Tian, T Cai, Y Shen, B Ni, J Chang，IEEE Photonics Technology Letters，2024.

14. Expanded polarization tunable structural colors with two-way transmission and reflection enabled by Al-HfO2 bilayer structure，H Ni, H Xu, Z Li, B Ni, J Chang，Optical and Quantum Electronics 56 (8), 1380，2024.

13. Haibin Ni, An Ping, Tong Cai, Bo Ni, Jianhua Chang, and Alexey V. Krasavin, Tunable polarization control with self-assembled arrays of anisotropic plasmonic coaxial nanocavities, Optics Express, 2024, 32(10), 16901-16912.

12. Tunable Elliptical Torus Metamaterial Absorber for Light Absorption in the Optical Region，TA Isogun, HB Ni，Plasmonics 19 (2), 663-674，2024.

11. Ni, Haibin; Zhang, Lu; Ping, An; Krasavin, Alexey V.; Ali, Hassan; Ni, Bo; Chang, Jianhua; Dual-mode independent detection of pressure and refractive index by miniature grating-coupled surface plasmon sensor, Optics Express, 2022, 30(4): 5758-5768.

10. Ni H, Krasavin A V, Zhang L, et al. Self‐Assembled Plasmonic Coaxial Nanocavities for High‐Definition Broad‐Angle Coloring in Reflection and Transmission. Advanced Optical Materials, 2021, 9(10): 2001923.

9. 钱其升, 刘慧研, 查永鹏, 倪海彬，非对称共轴腔结构色产生与调控，物理学报，Vol. 71, No. 8 (2022) 084103，2022.

8. 曹瑷琛, 倪海彬, 倪波, 李元元, 常建华，自组装银纳米环等离激元生物传感器的制备与光学性质，中国激光，第49卷 第3期/2022年2月.

7. Ni H, Yuan G, Sun L, et al. Large-scale high-numerical-aperture super-oscillatory lens fabricated by direct laser writing lithography[J]. RSC advances, 2018, 8(36): 20117-20123.

6. Ni H, Ge L, Liu X, et al. Large area highly ordered monolayer composite microsphere arrays–fabrication and tunable surface plasmon linewidth[J]. RSC advances, 2018, 8(69): 39735-39741.

5. Ni H, Zhou Y, Liu X, et al. Surface plasmons excited from close-packed nanoring tube arrays produced by nanosphere lithography[J]. Optical Materials Express, 2018, 8(12): 3676-3687.

4. Ni H, Wang M, Hao H, et al. Integration of tunable two-dimensional nanostructures on a chip by an improved nanosphere lithography method. Nanotechnology, 2016, 27(22): 225301.

3. Ni H, Wang M, Shen T, et al. Self-assembled large-area annular cavity arrays with tunable cylindrical surface plasmons for sensing. ACS Nano, 2015, 9(2): 1913-1925.

2. Ni H, Wang M, Li L, et al. Photonic-crystal-based optical fiber bundles and their applications[J]. IEEE Photonics Journal, 2013, 5(4): 2400213-2400213.

1. Haibin N, Ming W, Wei C. Sol-gel co-assembly of hollow cylindrical inverse opals and inverse opal columns[J]. Optics Express, 2011, 19(27): 25900-25910.