副教授

1. 柔性可穿戴传感器：脑机接口，纤维电极，微针电极，柔性传感器。

2. 热控纤维和织物：红外隐身织物，被动辐射冷却织物，防水透气织物。

3. 功能高分子材料：蚕丝、蜘蛛丝等蛋白材料，功能性聚氨酯，有机硅材料。

以第一作者/通讯作者在 Chemical Society Reviews、Advanced Materials、Advanced Functional Materials、ACS Nano、Advanced Science、Nano-Micro Letters、Small、Chemical Engineering Journal、Biosensors and Bioelectronics、iScience 等国际知名期刊发表学术论文50余篇；撰写专著章节2部，分别由国际著名出版机构WILEY-VCH与Woodhead Publishing出版；授权国家发明专利10余项。

学术论著：

[1] Active Coating for Smart Textiles, Chapter 7, edited by Fan Hu, Naibo Lin, Xiang Yang Liu. Natural photonic materials for textile coatings, Elsevier, 2016

[2] Soft Fibrillar Materials. Fabrication and Applications, Chapter 7, edited by Lin Naibo, Liu Xiangyang, and Xu Hongyao, (Wiley-VCH, Weinheim, 2013)

期刊论文（通讯或第一作者论文）：

[1] D. Nie, S. Zhang, Y. Zheng, X. Hu, J. Chen, Z. Yan, J. Zhou, L. Ma, N. Lin, Surface Functionalization of Water Transportation Management Yarns for Bioinspired Humidity Sensors. Chem. Eng. J., 2026, 530: 173386

[2] Y. Zheng, H. Ning, B. Zhao, Y. Jiang, J. Chen, Y. Wu, D. Nie, X. Hu, Z. Yan, R. Xie, C. Shi, N. Lin, Molecular Chain Interpenetration–Enabled High Interfacial Compatibility of Ionic and Electronic Conductors for Stretchable Ionic Devices. Adv. Mater., 2025, 37: 202417175

[3] X. Hu, J. Chen, Z. Yan, D. Nie, F. Guan, C. Shi, N. Lin, Multifunctional Silk Fibroin Hydrogels with Strong Adhesion for Tissue Sealing and Wearable Electronic Sensors. ACS Appl. Mater. Interfaces, 2025, 17(11): 16453–16467

[4] 聂渡, 邵俊俊, 颜子健, 陈济添, 林乃波, 清除活性氧用丝素水凝胶. 功能高分子学报, 2024, 37(2): 102

[5] L. Tu, S. Q. Chen, Z. K. Yuan, Y. Q. Xiong, B. K. Luo, Y. Chen, Z. Q. Hou, S. K. Ke, N. B. Lin, C. Li, S. F. Ye, Amino Acid-Based Metallo-Supramolecular Nanoassemblies Capable of Regulating Cellular Redox Homeostasis for Tumoricidal Chemo-/Photo-/ Catalytic Combination Therapy. J. Colloid Interface Sci., 2024, 663: 810–824

[6] D. Nie, Z. Yan, J. Chen, Y. Zheng, X. Hu, H. Ning, Y. Wu, J. Dai, W. Chen, W. Zhang, X.-Y. Liu, N. Lin, Strain-Insensitive Fiber Sensors Bioinspired by Spider Silk with a Multilevel Helical Structure. Chem. Eng. J., 2024, 500: 157489

[7] L. Q. Kong, Z. C. Zeng, G. Z. Min, Z. H. Meng, G. Q. Meng, X. X. Guo, N. B. Lin, X. Y. Liu, Bioinspired Design of Integral Molded Janus Silk Fibroin-Mxene Evaporator for Efficient Solar Vapor Generation. Nano Res., 2024, 17(4): 2790–2799

[8] 颜子健, 黄凯伦, 郑耀贤, 胡新玲, 林乃波, 基于丝素/聚丙烯酸水凝胶的柔性释药生物电极. 防化研究, 2023, 2(03): 51–58

[9] B. Zhao, J. Yan, F. Long, W. Qiu, G. Meng, Z. Zeng, H. Huang, H. Wang, N. Lin, X.-Y. Liu, Bioinspired Conductive Enhanced Polyurethane Ionic Skin as Reliable Multifunctional Sensors. Adv. Sci., 2023, 10(19): 2300857

[10] Z. Q. Yan, X. Y. Zheng, G. Q. Meng, Y. L. Tang, X. M. Zhou, J. K. Hao, J. Feng, N. B. Lin, L. Hu, 2D Co₃O₄ Modified by IrO₂ Nanozyme for Convenient Detection of Aqueous Fe²⁺ and Intercellular H₂O₂. Microchim. Acta, 2023, 190: 1

[11] G. Meng, F. Long, Z. Zeng, L. Kong, B. Zhao, J. Yan, L. Yang, Y. Yang, X.-Y. Liu, Z. Yan, N. Lin, Silk Fibroin Based Wearable Electrochemical Sensors with Biomimetic Enzyme-Like Activity Constructed for Durable and on-Site Health Monitoring. Biosens. Bioelectron., 2023, 228: 115198

[12] W. Chen, C. Wang, W. Liu, B. Zhao, Z. Zeng, F. Long, C. Wang, S. Li, N. Lin, J. Zhou, A Matrix-Metalloproteinase-Responsive Hydrogel System for Modulating the Immune Microenvironment in Myocardial Infarction. Adv. Mater., 2023, 35(13): e2209041

[13] G. Wei, Y. Gu, N. Lin, X. Ning, Y. Lu, G. Zhao, S. Guang, J. Feng, H. Xu, Autonomous Bionanorobots Via a Cage-Shaped Silsesquioxane Vehicle for in Vivo Heavy Metal Detoxification. ACS Appl. Mater. Interfaces, 2022, 14(25): 29238–29249

[14] J. Shao, S. Sun, D. Zhan, L. Pan, G. Min, X. Li, K. Huang, W. Chen, L. Yang, X.-Y. Liu, N. Lin, Phycocyanin - Carbon Dots Nanoprobe for the Ratiometric Fluorescence Determination of Peroxynitrite. Spectrochim. Acta, Part A, 2022, 275: 121177

[15] L. Pan, M. Zou, F. Ma, L. Kong, C. Zhang, L. Yang, A. Zhu, F. Long, X.-Y. Liu, N. Lin, Fast Dopamine Detection Based on Evanescent Wave Detection Platform. Anal. Chim. Acta, 2022, 1191: 339312

[16] L. Pan, K. Huang, G. Min, X. Li, J. Shao, F. Ma, L. Kong, M. Zou, G. Meng, W. Chen, L. Yang, X.-Y. Liu, N. Lin, Upconversion-Luminescent Optical Fiber Probe for in Situ Tyrosinase Monitoring. Sens. Actuators, B, 2022, 358: 131474

[17] G. Min, F. Hong, C. Shi, Q. Zhao, N. Lin, X.-Y. Liu, Biomimetic Synthesis of 2d Ultra-Small Copper Sulfide Nanoflakes Based on Reconfiguration of the Keratin Secondary Structure for Cancer Theranostics in the Nir-Ii Region. J. Mater. Chem. B, 2022, 10(16): 3152–3161

[18] K. Huang, X. Li, W. Chen, L. Pan, L. Kong, J. Shao, Z. Lin, H. Miao, W. Zhang, F. Ma, M. Zou, G. Min, X.-Y. Liu, N. Lin, Flexible Intelligent Array Patch Based on Synergy of Polyurethane and Nanofiber for Sensitive Monitor and Smart Treatment. Chem. Eng. J., 2022, 443: 136378

[19] W. Chen, C. Xu, L. Kong, X. Y. Liu, X. Zhang, N. Lin, X. Ouyang, Silk Fibroin‐Based Flexible Organic Light‐Emitting Diode with High Light Extraction Efficiency. Adv. Opt. Mater., 2022, 10(12): 2102742

[20] W. Chen, H. Miao, G. Meng, K. Huang, L. Kong, Z. Lin, X. Wang, X. Li, J. Li, X. Y. Liu, N. Lin, Polydopamine-Induced Multilevel Engineering of Regenerated Silk Fibroin Fiber for Photothermal Conversion. Small, 2022, 18(11): e2107196

[21] 徐川, 严观福生, 孔令庆, 欧阳新华, 林乃波, 刘向阳, 基于丝素蛋白与纳米银线的柔性透明导电膜及其光电应用. 材料导报, 2021, 35(02): 2064–2068

[22] W. Zhang, F. Ma, Z. Meng, L. Kong, Z. Dai, G. Zhao, A. Zhu, X.-Y. Liu, N. Lin, Green Synthesis of Waterborne Polyurethane for High Damping Capacity. Macromol. Chem. Phys., 2021, 222(6): 2000457

[23] H. Miao, R. Shen, W. Zhang, Z. Lin, H. Wang, L. Yang, X. Y. Liu, N. Lin, Near‐Infrared Light Triggered Silk Fibroin Scaffold for Photothermal Therapy and Tissue Repair of Bone Tumors. Adv. Funct. Mater., 2021, 31(10): 2007188

[24] Z. Meng, W. Yan, M. Zou, H. Miao, F. Ma, A. B. Patil, R. Yu, X. Yang Liu, N. Lin, Tailoring Nicoal Layered Double Hydroxide Nanosheets for Assembly of High-Performance Asymmetric Supercapacitors. J. Colloid Interface Sci., 2021, 583: 722–733

[25] Z. Lin, Z. Meng, H. Miao, R. Wu, W. Qiu, N. Lin, X. Y. Liu, Biomimetic Salinity Power Generation Based on Silk Fibroin Ion-Exchange Membranes. ACS Nano, 2021, 15(3): 5649–5660

[26] Z. Lin, Y. Li, G. Meng, X. Hu, Z. Zeng, B. Zhao, N. Lin, X. Y. Liu, Reinforcement of Silk Microneedle Patches for Accurate Transdermal Delivery. Biomacromolecules, 2021, 22(12): 5319–5326

[27] W. Yan, Z. Meng, M. Zou, H. Miao, F. Ma, R. Yu, W. Qiu, X. Y. Liu, N. Lin, Neutralization Reaction in Synthesis of Carbon Materials for Supercapacitors. Chem. Eng. J., 2020, 381: 122547

[28] G. Wei, G. Zhao, N. Lin, S. Guang, H. Xu, Dual-Functional Chemical Sensor for Sensitive Detection and Bioimaging of Zn2+ and Pb2+ Based on a Water-Soluble Polymer. Org. Electron., 2020: 105711

[29] G. Wei, G. Zhao, N. Lin, S. Guang, H. Xu, Water-Soluble Fluorescent Copolymer for Effective Recognition and Imaging of Tumor. Colloids Surf., A, 2020, 599: 124863

[30] G. Wei, N. Lin, Y. Gu, X. Ren, G. Zhao, S. Guang, J. Feng, H. Xu, High Selectivity Improvement of Chemosensors through Hydrogen-Induced Emission (Hie) for Detection of Hg²⁺ in Vivo and in Vitro. Sens. Actuators, B, 2020, 321: 128532

[31] A. B. Patil, Z. Meng, R. Wu, L. Ma, Z. Xu, C. Shi, W. Qiu, Q. Liu, Y. Zhang, Y. Lin, N. Lin, X. Y. Liu, Tailoring the Meso-Structure of Gold Nanoparticles in Keratin-Based Activated Carbon toward High-Performance Flexible Sensor. Nano Micro Lett., 2020, 12(1): 117

[32] F. Hu, N. Lin, X. Y. Liu, Interplay between Light and Functionalized Silk Fibroin and Applications. iScience, 2020, 23(4): 101035

[33] 张鸿昊, 曹丽薇, 黄巧玲, 林乃波, 刘向阳, 纳米金簇复合丝素薄膜的性能及其在生物成像中的应用. 东华大学学报(自然科学版), 2019, 45(04): 545–554

[34] Q. Qi, Y. Li, W. Qiu, W. Zhang, C. Shi, C. Hou, W. Yan, J. Huang, L. Yang, H. Wang, W. Guo, X. Y. Liu, N. Lin, Transient Bioelectrical Devices Inspired by a Silkworm Moth Breaking out of Its Cocoon. RSC Adv., 2019, 9(25): 14254–14259

[35] L. Ma, R. Wu, A. Patil, S. Zhu, Z. Meng, H. Meng, C. Hou, Y. Zhang, Q. Liu, R. Yu, J. Wang, N. Lin, X. Y. Liu, Full‐Textile Wireless Flexible Humidity Sensor for Human Physiological Monitoring. Adv. Funct. Mater., 2019, 29(43): 1904549

[36] 张鸿昊, 林乃波, 刘向阳, 蚕丝和蜘蛛丝多级结构对力学性能的影响. 功能高分子学报, 2018, 31(6): 501–512

[37] L. Zhang, Z. Meng, Q. Qi, W. Yan, N. Lin, X. Y. Liu, Aqueous Supercapacitors Based on Carbonized Silk Electrodes. RSC Adv., 2018, 8(39): 22146–22153

[38] L. Kong, L. Zhang, Z. Meng, C. Xu, N. Lin, X.-Y. Liu, Ultrastable, Highly Luminescent Quantum Dot Composites Based on Advanced Surface Manipulation Strategy for Flexible Lighting-Emitting. Nanotechnology, 2018, 29(31): 315203

[39] Y. Song, Z. Lin, L. Kong, Y. Xing, N. Lin, Z. Zhang, B.-H. Chen, X.-Y. Liu, Meso-Functionalization of Silk Fibroin by Upconversion Fluorescence and near Infrared in Vivo Biosensing. Adv. Funct. Mater., 2017, 27(26): 1700628

[40] F. Yu, L. Cao, Z. H. Meng, N. Lin, X.-Y. Liu, Crosslinked Waterborne Polyurethane with High Waterproof Performance. Polym. Chem., 2016, 7(23): 3913–3922

[41] F. Yu, X. Xu, N. Lin, X. Y. Liu, Structural Engineering of Waterborne Polyurethane for High Performance Waterproof Coatings. RSC Adv., 2015, 5(89): 72544–72552

[42] N. B. Lin, Y. H. Lin, Q. L. Huang, X. Y. Liu, Supramolecular Gels and Mesoscopic Structure. International Journal of Modern Physics B, 2018, 32(18): 30

[43] N.-B. Lin, Y.-H. Lin, Q.-L. Huang, X.-Y. Liu, Supramolecular Gels and Mesoscopic Structure. Acta Physica Sinica, 2016, 65(17): 174702–174702

[44] N. Lin, L. Cao, Q. Huang, C. Wang, Y. Wang, J. Zhou, X.-Y. Liu, Functionalization of Silk Fibroin Materials at Mesoscale. Adv. Funct. Mater., 2016, 26(48): 8885–8902

[45] N. Lin, Z. Meng, G. W. Toh, Y. Zhen, Y. Dao, H. Xu, X. Y. Liu, Engineering of Fluorescent Emission of Silk Fibroin Composite Materials by Material Assembly. Small, 2015, 11(9-10): 1205–14

[46] N. Lin, X. Y. Liu, Correlation between Hierarchical Structure of Crystal Networks and Macroscopic Performance of Mesoscopic Soft Materials and Engineering Principles. Chem. Soc. Rev., 2015, 44(21): 7881–7915

[47] N. Lin, G. W. Toh, Y. Feng, X. Y. Liu, H. Xu, Two-Photon Fluorescent Bombyx Mori Silk by Molecular Recognition Functionalization. J. Mater. Chem. B, 2014, 2(15): 2136–2143

[48] N. Lin, F. Hu, Y. Sun, C. Wu, H. Xu, X. Y. Liu, Construction of White-Light-Emitting Silk Protein Hybrid Films by Molecular Recognized Assembly among Hierarchical Structures. Adv. Funct. Mater., 2014, 24(33): 5284–5290

[49] N. Lin, X. Y. Liu, Y. Y. Diao, H. Xu, C. Chen, X. Ouyang, H. Yang, W. Ji, Switching on Fluorescent Emission by Molecular Recognition and Aggregation Dissociation. Adv. Funct. Mater., 2012, 22(2): 361–368

[50] N. Lin, Y. Feng, S. Guang, H. Xu, Preparation and near-Infrared Optical Limiting Property of Fluorene-Containing Functional Polyacetylene. Chin. Chem. Lett., 2011, 22(10): 1257–1260

[51] N. B. Lin, Z. Y. Wu, H. Y. Xu, C. Zhang, Preparation and Formation Mechanism of Monodisperse Inorganic/Organic Hybrid Polystyrene Microspheres with Better Thermal Stability. Polym. Mater. Sci. Eng., 2009, 25(4): 133–136