1、低碳材料绿色制造与智能设计

面向“双碳”目标与生物质资源高值化利用，重点开展生物质低碳转化、纳米纤维素绿色规模化制造及功能材料智能设计研究。聚焦高效预处理、反应分离耦合、绿色溶剂体系构建与循环回收等关键环节，建立纤维素纳米晶与纤维素纳米纤维的绿色制备新工艺；结合人工智能与数据驱动方法，推进材料组成—结构—性能关系解析与制造过程优化，实现低碳材料的高效制造与定向设计。进一步拓展其在轻量化材料、电磁吸波、果蔬保鲜与结构增强等领域的应用。

2、柔性传感器设计开发

面向健康监测、智能可穿戴与人机交互需求，重点开展基于纳米纤维素水凝胶的柔性传感材料与器件设计研究。围绕水凝胶电极的导电性、粘附性、抗污染性、力学稳定性与生物相容性，构建兼具高粘附低阻抗、低粘附抗污染等特征的功能界面；结合多尺度结构调控、界面工程与智能算法辅助设计，开发适用于心电、脉搏、压力及运动信号监测的柔性传感器件与集成系统，推动柔性电子材料从基础设计向智能诊疗应用延伸。

3、海洋功能材料智能设计

面向海洋装备安全服役与海洋环境治理需求，重点开展海洋防污、防腐及响应材料的智能设计与应用研究。围绕“主被动防御结合、仿生结构构筑与智能响应协同”的总体思路，开发适用于海洋光学传感器/观测窗、核电冷源系统、养殖网箱等关键场景的新型功能涂层与界面材料；重点设计基于两性离子聚合物刷、纳米纤维素及响应性仿酶体系的海洋防污防腐材料，并进一步拓展至赤潮治理、溢油处置等海洋环境修复方向，提升海洋功能材料的智能化设计水平与工程应用能力。

分子设计与产品工程（国家级一流本科课程、人工智能赋能课程）

分子设计与化工产品工程

中国海洋学会理事

英国皇家化学会会士

英国海洋工程科学与技术学院会士

International Journal of Agricultural and Biological Engineering栏目主编

Journal of Cleaner Production客座编辑

Renewable and Sustainable Energy Reviews客座编辑

1、国家级高层次领军人才

2、农业农村部国家神农英才

3、自然资源部科技领军人才

4、教育部新世纪优秀人才

5、天津市中青年科技创新领军人才

6、中国产学研合作创新成果一等奖

7、教育部自然科学二等奖

8、天津市自然科学二等奖

9、湖南省自然科学一等奖

纳米纤维素产业化应用案例

本团队已在天津市西青区和津南区孵化两家科技型企业，建成年产3万吨纤维素纳米纤维和3000吨纤维素纳米晶生产基地，并应用于食品保鲜、建筑增强等领域。

[1] Shan CC, Che MD, Huang RL, Qi W, Su RX*. Liquid-Phase Engineering of Nanocellulose Gels for Enhanced Mechanical Performance and Multifunctionality. Advanced Functional Materials, 2026, doi: 10.1002/adfm.73842.

[2] Chen S, Song Q, Wang Z, Xia Y, Biehl P, Su RX*, Zhang K*. Tunable Interference Colors in Nanofibril–Crystal Composite Films via Integrated Salt-Assisted Assembly. Research, 2026, doi: 10.34133/research.1198

[3] Wang JY, Yu YJ, Su RX*, Wu JJX*. Self-Sustaining Piezozyme Platform for Antifouling via Mechanically Triggered Enzymatic Cascade. Advanced Science, 2026, doi: 10.1002/advs.202519278.

[4] Duan Y, Wu J*, Qiao A, Zhang Z, Shang J, Mao X, Yan X, Wang N, Zhong P, Li X, Banquy X*, Qi W, Su RX*. Robust Antifogging and Antifouling Coating Tailored with Zwitterionic Nanocellulose for Multi-Functional Applications. Advanced Science, 2025, 12: e09204.

[5] Gao X, Zhang L, Chen S, Cui M*, Huang R*, Qi W, Su RX*. Integrated mechanochemistry and filtrate recycling for sustainable production of phosphorylated cellulose nanofibers. AIChE Journal, 2025, 71(8): e18882.

[6] Ai Y, Xing R, Ren N, Huang R*, Cui M, Su RX*, Kong J*. Biomass-derived hierarchical carbon frameworks enable robust microwave absorption. Matter, 2025, 8(9): 102289.

[7] Ren N, Zheng G, Cui M*, Zhang L, Ai Y, Shan C, Qi W, Huang R*, Su RX*. Integrally formed Janus adhesive conductive hydrogel with excellent interfacial stability and fatigue resistance for robust flexible sensing. Cell Report Physical Science, 2025, 6: 102916.

[8] Gao X, Zhang L, Cui M*, Qi W, Lam HL, Huang R*, Su RX*. Integrating solvent-free mechanochemistry and heat curing for the green production of highly charged and highly crystalline phosphorylated cellulose nanocrystals. Chemical Engineering Journal, 2025, 511: 162260.

[9] Gao Z, Zhang S, Duan Y, Chang H, Cui M, Huang R*, Su RX*. Photoinitiated Thiol-Ene Click Reaction for Preparation of Highly Adhesive and Mechanically Stable Silicone Coatings for Marine Antifouling and Anticorrosion. ACS Applied Materials and Interfaces, 2025, 17(5): 8299-8311.

[10] Ge X, Duan Y, Wu J*, Chang H, Qi W, Su RX*. Zwitterionic Cellulose Nanocrystals/Deacetylated Chitin Nanofiber Combined with SiO₂ Hybrid Coatings: An Innovative Approach to Marine Antifouling. Industrial and Engineering Chemistry Research, 2025, 64(4): 2157-2167.

[11] Han L, Shan C*, Cui M, Su RX*, Huang R*. Ionic Liquid-Mediated Phase Separated Hydrogels With Bicontinous Conductive Networks for Long-Term Underwater Strain Sensing. Small, 2025, 21: e06902.

[12] Zhang L, Ren N, Zhang J, Gao X, Cui M*, Qi W, Huang R*, Lam HL, Su RX*. Cellulose nanocrystals: Sustainable production and emerging fruit coating applications. Chemical Engineering Journal, 2025, 509: 161190.

[13] Zhao Y, Zhang S, Zhang L, Che M*, Huang R*, Cui M, Qi W, Su RX*. Mechanical properties and interfacial adhesion mechanism of polyolefin composites reinforced with ethylene vinyl alcohol-coated cellulose microfibers. Chemical Engineering Journal, 2025, 506: 159910.

[14] Zhu X, Che M*, Huang R*, Cui M, Qi W, Su RX*. Ultrastrong, Fire-Resistant, and Sustainable Phosphorylated Cellulose Microfibers Hot-Pressing Structural Material. ACS Sustainable Chemistry and Engineering, 2025, 13(21): 7877-7889.

[15] Ai Y, Xing R, Huang R*, Kong J*, Su RX*. Biomass-derived fire-retardant porous carbon towards efficient electromagnetic wave absorption and shielding. Carbon, 2024, 227: 119268.

[16] Che M, Xiao J, Zhang S, Shan C, Zhao Z, Huang R*, Zhou Y, Cui M, Qi W, Su RX*. A Kirkendall strategy for the efficient degradation of trichloroethylene from groundwater using cellulose nanofiber-supported sulfidated nZVI. Chemical Engineering Journal, 2024, 501: 157816.

[17] Chen S, Xu D, Yin H, Huang R, Qi W, Su RX*, Zhang K*. Large-Scale Engineerable Films Tailored with Cellulose Nanofibrils for Lighting Management and Thermal Insulation. Small, 2024, 20(43): 2401283.

[18] Ren N, Ai Y, Yue N, Cui M*, Huang R, Qi W, Su RX*. Shear-Induced Fabrication of Cellulose Nanofibril/Liquid Metal Nanocomposite Films for Flexible Electromagnetic Interference Shielding and Thermal Management. ACS Applied Materials and Interfaces, 2024, 16(14): 17904-17917.

[19] Qiao A, Duan Y, Gao X, Ren N, Huang R, Wu J, Qi W, Penkova A, Su RX*. Eco-friendly efficient cleaning of oiled sand by phosphorylated cellulose nanocrystal-based composite. Chemical Engineering Journal, 2024, 491: 152019.

[20] Li H, Wang J*, Cui M, Huang R*, Qi W, Su RX*. Dynamic dual-atom synergistic catalysis boosted by liquid metal for direct seawater electroreduction. Journal of Materials Chemistry A, 2024, 12(22): 13466-13473.

[21] Zhang S, Zhao Y, Che M*, Huang R*, Cui M, Qi W, Su RX*. Solvent-free preparation of propionyl-modified pulp fibers for high-density polyethylene reinforcement. Green Chemistry, 2024, 27(3): 782-792.

[22] Yue N, Lai Y, Wu J*, Zhang Q, Qi W, Su RX*. Optimization of metal–organic framework nanozyme activity via histidine modification for simultaneous pesticide detection. Chemical Engineering Journal, 2024, 493: 152630.

[23] Yu T, Wu J*, Shen Y, Penkova A, Qi W, Su RX*. Transparent coating based on multienzyme-mimicking Janus nanozyme for synergetic biofouling control in seawater. Chemical Engineering Journal, 2024, 498: 155144.

[24] Gao X, Zhang L, Cui M*, Huang R, Qi W, Su RX*. Pre-phosphorylation for facile production of phosphorylated cellulose nanocrystals with high charge content: an optimised design and life cycle assessment. Green Chemistry, 2023, 25(13): 5041-5050.

[25] Chen L, Zhou Q*, Yue L, Wu M, Huang R, Yuen KF*, Su RX*. A theoretical model for preventing marine litter behaviour: An empirical evidence from Singapore. Journal of Cleaner Production, 2023, 427: 139109.

[26] Che M, Xiao J, Shan C, Chen S, Huang R*, Zhou Y, Cui M, Qi W, Su RX*. Efficient removal of chloroform from groundwater using activated percarbonate by cellulose nanofiber-supported Fe/Cu nanocomposites. Water Research, 2023, 243: 120420.

[27] Shen Y †, Su RX †, Hao D, Xu X, Reches M, Min J, Chang H, Yu T, Li Q, Zhang X, Wang Y*, Wang Y*, Qi W*. Enzymatic polymerization of enantiomeric L−3,4-dihydroxyphenylalanine into films with enhanced rigidity and stability. Nature Communications, 2023, 14(1): 3054.

[28] Zhang L, Gao X, Huang R, Cui M*, Qi W, Su RX*. Cleaner production of cellulose nanocrystals and calcium sulfate whiskers: Process design and life cycle assessment. AIChE Journal, 2023, 69(11): e18186.

[29] Ai YS, Zhang L, Cui M*, Huang RL, Qi W, He ZM, Klemes JJ, Su RX*. Toward cleaner production of nanocellulose: a review and evaluation. Green Chemistry, 2022, 24 (17): 6406-6434.

[30] Chen SH, Ren N, Cui M*, Huang RL, Qi W, He ZM, Su RX*. Heat Soaking Pretreatment for Greener Production of Phosphorylated Cellulose Nanofibrils with Higher Charge Density. ACS Sustainable Chemistry & Engineering, 2022, 10 (27): 8876-8884.