1、低碳可持续材料（纳米纤维素）

重点开展纳米纤维素（纤维素纳米晶、纤维素纳米纤维）的绿色制备技术，并拓展纳米纤维素在汽车复合材料、光热管理材料、果蔬保鲜、生物医学材料领域中的应用，正在承担国家自然科学基金、产学研合作项目。

2、环境监测与治理、食品安全（生物纳米材料）

开发表面等离子共振谱仪、各种新型生物纳米材料，实现食品及包装材料中有害物质的检测、环境污染物检测与纳米催化降解，目前承担国家重大科学仪器专项、国家863计划、国家科技支撑项目、科技部质检公益性项目。

分子设计与产品工程；

分子设计与化工产品工程

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、自然资源部科技领军人才

2、英国皇家化学会会士

3、国家重点研发计划项目负责人

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] Shen YH †, Su RX †, Hao DZ, Xu XJ, Reches M, Min JW, Chang H, Yu T, Li Q, Zhang XY, Wang YF*, Wang YF*, Qi W*. Enzymatic polymerization of enantiomeric (L)-3,4-dihydroxyphenylalanine into films with enhanced rigidity and stability. Nature Communications, 2023, 14: 3054.

[2] Shan CC, Che MD, Cholewinski A, Su RX*, Zhao BX*. Multifunctional nanocrystalline cellulose ionogels toward tough and sustainable materials. Cell Reports Physical Science, 2023, 4: 101511.

[3] Che MD, Xiao JZ, Shan CC, Chen SH, Huang RL*, Zhou YT, 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.

[4] Zhang L, Gao X, Huang RL, 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: e18186.

[5] Gao X, Zhang L, Cui M*, Huang RL, 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: 5041-5050.

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

[7] 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.

[8] Zhang L, Wang JY, Huang RL, Cui M, Qi W, He ZM, Su RX*. Sustainable Production of Cellulose Nanocrystals with Sulfuric Acid Recycling Using Diffusion Dialysis and Electrodialysis. ACS Sustainable Chemistry & Engineering, 2022, 10: 13266-13276.

[9] Shan CC, Che MD, Cholewinski A, Kunihiro JK, Yim EKF, Su RX*, Zhao BX*. Adhesive hydrogels tailored with cellulose nanofibers and ferric ions for highly sensitive strain sensors. Chemical Engineering Journal, 2022, 450: 138256.

[10] Liu MY, Shan CC, Huang RL, Zhang Z, Lee DW, Qi W, He ZM, Su RX*. Nano-engineered natural sponge as a recyclable and deformable reactor for ultrafast conversion of pollutants from water. Chemical Engineering Science, 2022, 247: 117049.

[11] Ye HJ, Che JJ, Huang RL, Qi W, He ZM, Su RX*. Zwitterionic peptide enhances protein-resistant performance of hyaluronic acid modified surfaces. Langmuir, 2020, 36: 1923-1929.

[12] Xia YQ, Adibnia V, Huang RL, Murshel F, Faivre J, Xie GJ, Olszewski M, Crescenzo GD, Qi W, He ZM, Su RX*, Matyjaszewski K*, Banquy X*. Biomimetic Bottle-Brush Polymer Coatings for Fabrication of Ultra-Low Fouling Surfaces. Angewandte Chemie International Edition, 2019, 58: 1308-1314.

[13] Liu MY, Shan CC, Huang RL, Zhang Z, Lee DW, Qi W, He ZM, Su RX*. Nano-engineered natural sponge as a recyclable and deformable reactor for ultrafast conversion of pollutants from water. Chemical Engineering Science, 2022, 247: 117049.

[14] Liu MY, Huang RL, Li CX, Che MD, Su RX*, Li SZ, Yu J*, Qi W, He ZM. Continuous Rapid Dechlorination of p-Chlorophenol by Fe-Pd Nanoparticles Promoted by Procyanidin. Chemical Engineering Science, 2019, 201: 121-131.

[15] Huang RL, Zhu HX, Su RX*, Qi W, He ZM. Catalytic Membrane Reactor Immobilized with Alloy Nanoparticles-Loaded Protein Fibrils for Continuous Reduction of 4-Nitrophenol. Environmental Science & Technology, 2016, 50: 11263–11273.