生物技术学院蚕业研究所

博士，副研究员，硕导，农业农村部蚕桑产业产品质量监督检验测试中心理化检测室主任，江苏省“六大高峰计划”高层次人才，江苏科技大学“深蓝杰出人才”培养对象，长期从事天然药物、天然生物材料、生物催化等方面的研究。以第一作者在Chemical Engineering Journal，Green Chemistry，Carbohydrate Polymers等杂志发表SCI论文50余篇。主持国家自然科学基金、江苏省自然科学基金、农业农村部标准制修订项目等多项研究课题。先后指导研究生本科生获江苏省优秀研究生论文、江苏省优秀本科毕业设计团队、江苏科技大学优秀研究生论文、江苏科技大学优秀本科毕业设计。

（1）代表性论文及专利

以第一作者或通讯作者发表SCI研究论文40余篇，其中中科院1区SCI论文30余篇；

第一申请人授权国家发明专利5项。

（2）科研项目

主持江苏省自然基金面上项目1项；

主持江苏省六大人才高峰项目1项；

主持国家自然科学基金青年项目1项；

主持江苏省青年基金项目1项；

主持农业农村部标准制修订项目3项；

主持江苏科技大学校深蓝人才项目1项；

（3）获奖情况

指导江苏省优秀硕士论文1篇；

参与指导江苏省本科优秀毕业设计团队1项；

指导江苏科技大学优秀硕士论文3篇；

指导江苏科技大学优秀本科毕业论文2篇；

获江苏科技大学优秀奖2次。

研究领域

（1）天然药物；

（2）天然生物质材料（纤维素、蚕丝）;

（3）生物催化

招生方面

硕士研究生：生物学、生物与医药、畜牧学、植物资源与利用、食品加工与安全

相关研究论文

[44] Bei Zhang, Xin-Xin Chen, Xiao-Rui Ge, Xin-Ping Wang, Xiao-Hui Yao,Wei-Guo Zhao, Tao Chen, Dong-Yang Zhang*. Chemically modified bacterial cellulose–mediated fiber salting-out method for preparing tough hydrogels. Carbohydrate Polymers 379 (2026) 124999（中科院1区，IF=12.5）

[43] En-Jiang Liu, Ding-Ding Lü, Bai-Chuan Lu, Run-Ze Hu, Shi-Wen Guo, Chen-Man Zong, Xiao-Hui Yao, Xue-Yang Wang, Tao Chen, Ai-Jun Wan, Dong-Yang Zhang*. Green Chemistry, 2025, 27, 7208（中科院1区，IF=9.2）

[42] Zheng-Feng Zhang, Mei-Yan Ling, Xiao-Rui Ge, Jia-Ying Chen, Bei Zhang, Xiao-Hui Yao, Peng Song, Wei-Guo Zhao, Dong-Yang Zhang,* Jun Wang*. Dual-stage reverse-dialysis-engineered cartilage-biomimetic hydrogels: Highly resilient anti-swelling double-layer architectures.Chemical Engineering Journal 524 (2025) 169915.（中科院1区，IF=13.2）

[41] Xiao-Rui Ge, Mei-Yan Ling, Jia-Ying Chen, Dingding Lü, Xin-Xin Chen, Bei Zhang, Aijun Wan, En-Jiang Liu, Jie Chen, Xiao-Hui Yao, Xue-Yang Wang, Wei-Guo Zhao, Dong-Yang Zhang*, Tao Chen,**Cell membrane–inspired reverse dialysis approach for preparation of hydrogels with tunable mechanical properties of high strength and toughness.Polymer 339 (2025) 129106（中科院2区，IF=4.5）

[40] Mei-Yan Ling, Dingding Lü, Aijun Wan, Jia-Ying Chen, Bei Zhang, Xiao-Hui Yao, Wei-Guo Zhao, Tao Chen ,* Dong-Yang Zhang,* Strengthening of a hydrogel via silk nanofiber biomineralization and unilateral reverse dialysis.International Journal of Biological Macromolecules 318 (2025) 145087（中科院2区，IF=8.5）

[39]Xin-Xin Chen , Yu-Xiong Ju , Bei Zhang , Xiao-Rui Ge , En-Jiang Liu , Dong-Yang Zhang *, Jun Wang , Xiao-Hui Yao , Wei-Guo Zhao , Tao Chen*, High-performance supercapacitors based on coarse nanofiber bundle and ordered network hydrogels. International Journal of Biological Macromolecules 292 (2025) 139208（中科院2区，IF=8.5）

[38] Chen-Xi He, Zhen-Zhen Lu, Xiao-Hui Yao, Tao Chen, Wei-Guo Zhao, Jun Wang, Dong-Yang Zhang*. Construction of a precise temperature–controlled continuous-flow catalytic reactor based on cellulose and MXene with directional thermal pathway heating and enzyme immobilization. Chemical Engineering Journal, 2025, 158971.（中科院1区，IF=13.2）

[37] Xiao-Yi Xu, Lu Wan, Shi-Yi Lin, Xiao-Hui Yao, Wei- Guo Zhao, Tao Chen, Dong-Yang Zhang*. High-efficiency mass-transfer Marangoni cellulose hydrogel reactor for the degradation of pollutants. International Journal of Biological Macromolecules, 2025, (302), 140548（中科院2区，IF=8.5）

[36] Bai-Chuan, En-Jiang Liu, Shi-Wen Guo, Zheng-Feng Zhang, Chen-Man Zong, Peng Song, Xiao-Hui Yao, Wei-Guo Zhao, Tao Chen, Dong-Yang Zhang*. A multifunctional hydrogel of cellulose nanofiber/microfibrillated cellulose hierarchical network for photothermal antibacterial and all-solid supercapacitor assembly. International Journal of Biological Macromolecules, 2025(306), 141063（中科院2区，IF=8.5）

[35] Ping-Yue Wang, Xin-Xin Chen, Xing Zhou, Xiao-Yi Xu, Zhi-Qiang Li, Mei-Rong Zhang, Xiao-Hui Yao, Jun Wang, Wei-Guo Zhao, Dong-Yang Zhang,* and Tao Chen*. Continuous Fluid Catalytic Reactor Constructed Based on In Situ Growth of MOF Immobilized Enzyme on Ordered Silk Fabric. ACS Sustainable Chem. Eng. 2024, 12, 8584−8598（中科院1区，IF=7.3）

[34] Run-Ze Hu, Lei Liu, En-Jiang Liu, Xiao-Hui Yao, Peng Song, Dong-Yang Zhang *, Zhan-Hua Huang, Tao Chen. Biomimetic hierarchical packaging inspired by natural pomelo peel for mechanical-damage resistance and storage of fruits. Chemical Engineering Journal, 2024, 149853.（中科院1区，IF=13.2）

[33] En-Jiang Liu, Yu-Shi Shen, Mei-Yan Ling, Chen-Xi He, Xing Zhou, Jun Wang, Shuai You, Wei-Guo Zhao, Xiao-Hui Yao, DongYang Zhang*, Wood-inspired dual-scale directional channel cellulose bioreactors with high mass transfer efficiency for continuous flow catalytic green conversion. Green Chemistry, 2024, （中科院1区，IF=9.2）

[32] Chen-Man Zong, Fei-Fan Shuang, Jie Chen, Ping-Yue Wang, Jing-Rou Li, DongYang Zhang*, Peng Song, Tao Chen, Wei-Guo Zhao, Xiao-Hui Yao,Nacre-inspired, strong, tough silk fibroin hydrogels based on biomineralization and the layer-by-layer assembly of ordered silk fabric. International Journal of Biological Macromolecules 253 (2023) 126730. （中科院1区，IF=7.7）

[31]Yu-Xiong Ju, Peng Song, Ping-Yue Wang, Xin-Xin Chen, Tao Chen, Xiao-Hui Yao, Wei-Guo Zhao, Dong-Yang Zhang*. Cartilage structure-inspired elastic silk nanofiber network hydrogel for stretchable and high-performance supercapacitors. International Journal of Biological Macromolecules 242 (2023) 124912（中科院1区，IF=7.7）

[30]Chen-Xi He, Yu-Shi Shen, Mei-Yan Ling, Xiao-Hui Yao, Tao Chen, Wei-Guo Zhao, Dong-Yang Zhang*. A porous directional channel xylem reactor based on a continuous fluid catalysis process applied to the conversion of polydatin to resveratrol. Sustainable Chemistry and Pharmacy. 33 (2023) 101082（中科院2区，IF=5.8）

[29] Yu-Shi Shen, Xing Zhou, Shuai You, Lu-Chan Gong, Jun Wang, Tao Chen, Wei-Guo Zhao, Xiao-Hui Yao, Dong-Yang Zhang*. Wood-inspired high-efficiency bioreactors with hierarchical porous structures for continuous flow reactions.Green Chemistry, 2023, 25, 1530. （中科院1区，IF=9.2）

[28]Fei-Fan Shuang, Chen-Man Zong, Chen-Chen Wang, Run-Ze Hu, Yu-Shi Shen, Yu-Xiong Ju, Xiao-Hui Yao, Tao Chen, Wei-Guo Zhao, Dong-Yang Zhang*. Chlorogenic acid and cellulose nanocrystal–assisted crosslinking preparation of a silk-based film to extend the shelf life of strawberries. LWT, 172 (2022), 114218.（中科院1区，IF=6.6）

[27] Run-Ze Hu, Jia-XinYang, Zheng-Feng Zhang, Jia-Xing Huang, Yu-Shi Shen, Xiao-HuiYao, Dong-Yang Zhang*, Tao Chen, Yu-JieFu. An all-cellulose sponge with a nanofiller-assisted hierarchical cellular structure for fruit maintaining freshness. International Journal of Biological Macromolecules 15 (2022) 1361-1373（中科院1区，IF=7.7）

[26] Ping-Yue Wang, Fei-Fan Shuang, Jia-Xin Yang, Yu-Xiong Jv, Run-Ze Hu, Tao Chen, Xiao-Hui Yao, Wei-Guo Zhao, Li Liu, Dong-Yang Zhang*. A rapid and efficient method of microwave-assisted extraction and hydrolysis and automatic amino acid analyzer determination of 17 amino acids from mulberry leaves. Industrial Crops & Products 186 (2022) 115271（中科院1区，IF=6.2）

[25]Yu-Xiong Ju, Run-Ze Hu, Ping-Yue Wang, Yu-Shi Shen, Fei-Fan Shuang, Jun Wang, Peng Song, Wei-Guo Zhao, Xiao-Hui Yao, Dong-Yang Zhang,*and Tao Chen* Strong Silk Fibroin/PVA/Chitosan Hydrogels with High Water Content Inspired by Straw Rammed Earth Brick Structures.ACS Sustainable Chem. Eng. 2022, 10, 13070-13080（中科院1区，IF=7.3）

[24]Run-Ze Hu, Zheng-Feng Zhang, Ben-Qing Yu , Jun Wang , Xiao-Hui Yao , Tao Chen , Wei-Guo Zhao , Dong-Yang Zhang* Natural phenolics and flavonoids modified the hierarchical cellular cellulose sponges for efficient water disinfection Carbohydrate Polymers 296 (2022) 119962（中科院1区，IF=12.5）

[23]Dong-Yang Zhang*, Jia-Xin Yang, En-Jiang Liu, Run-Ze Hu, Xiao-Hui Yao, Tao Chen, Wei-Guo Zhao, Li Liu, Yu-Jie Fu, Soft and elastic silver nanoparticle-cellulose sponge as fresh-keeping packaging to protect strawberries from physical damage and microbial invasion, International Journal of Biological Macromolecules 211 (2022) 470–480（中科院1区，IF=7.7）

[22]Run-Ze Hu, Xiao-Qi Zhang, Xiao-Hui Yao, Jia-Xin Yang, En-Jiang Liu, Tao Chen, Yu-Jie Fu, Wei-Guo Zhao, Dong-Yang Zhang *, A bio-inspired dynamic filter with unidirectional channels based on cross-linked cellulose loading palladium nanoparticles for catalytic reduction of 4-nitrophenol, Industrial Crops & Products 179 (2022) 114690.（中科院1区，IF=6.2）

[21]Yu-Shi Shen , Xiao-Hui Yao , Chen-Xi He , Run-Ze Hu , Jia-Xin Yang , Dong-Yang Zhang *, Tao Chen. A wood-based fluid catalytic reactor with directional channels and porous inner walls for efficient degradation of 4-NP by immobilized laccase.Industrial Crops & Products 178 (2022) 114589（中科院1区，IF=6.2）

[20]Dong-Yang Zhang, Run-Ze Hu, Xiao-Qi Zhang, Yi Wan, Xiao-Hui Yao, Tao Chen, Yu-Jie Fu, Ze-Yu Liu, Shugui Hua, Preparation of modified cellulose microspheres and application of fast enrichment of chlorogenic acid from mulberry leaf extract, Journal of Materials Research and Technology，2021, 15, 911-923（中科院2区，IF=6.9）

[19]Dong-Yang Zhang, Yi Wan, Xiao-Hui Yao, Cong Chen, Yu-Xiong Jua, Fei-Fan Shuang, Yu-Jie Fu Tao Chen, Wei-Guo Zhao, Li Liu, Long Li, Fabrication of three-dimensional porous cellulose microsphere bioreactor for biotransformation of polydatin to resveratrol from Polygonum cuspidatum Siebold & Zucc, Industrial Crops & Products 144 (2020) 112029（中科院1区，IF=6.2）

[18]Dong-Yang Zhang, Xiao-Qi Zhang, Xiao-Hui Yao, Yi Wan, Peng Song, Ze-Yu Liu, Yu-Jie Fu, Microwave-assisted synthesis of PdNPs by cellulose solution to prepare 3D porous microspheres applied on dyes discoloration,Carbohydrate Polymers 247 (2020)（中科院1区，IF=12.5）

[17]Yi Wan, Ze-Yu Liu, Peng Song, Xiao-Qi Zhang, Jiang-Chao Song, Yu-Jie Fu, Xiao-Hui Yao, Jun Wang, Tao Chen, Dong-Yang Zhang*, Long Li, Can-Yang Shi, Ionic liquid groups modified 3D porous cellulose microspheres for selective adsorption of AO7 dye, Journal of Cleaner Production, 240 (2019)（中科院1区，IF=10.0）

[16]Zhang Dong-Yang, Zhang Ning, Song Peng, Hao Jing-Yi, Wan Yi, Yao Xiao-Hui, Chen Tao, Li Long, Functionalized cellulose beads with three dimensional porous structure for rapid adsorption of active constituents from Pyrola incarnata, Carbohydrate Polymers, 2018.2.1, 181(1): 560-569.（中科院1区，IF=12.5）

[15]Zhang Dong-Yang, Wan Yi, Hao Jing-Yi, Hu Run-Ze, Chen Cong, Yao Xiao-Hui, Zhao Wei-Guo, Liu Ze-Yu, Li Long. Evaluation of the alkaloid, polyphenols, and antioxidant contents of various mulberry cultivars from different planting areas in eastern China, Industrial Crops & Products, 2018.10, 122(15): 298-307.（中科院1区，IF=6.2）

[14]Dong-Yang Zhang, Yi Wan, Jian-Yi Xu, Guo-Hua Wu, Long Li, Xiao-Hui Yao. Ultrasound extraction of polysaccharides from mulberry leaves and their effect on enhancing antioxidant activity. Carbohydrate Polymers,137 (2016) 473–479.（中科院1区，IF=12.5）

[13]Dong-Yang Zhang, Ming-Hui Duan, Xiao-Hui Yao, Yu-Jie Fu, Yuan-Gang Zu. Preparation of a novel cellulose-based immobilized heteropoly acid system and its application on the biodiesel production. Fuel, 172 (2016) 293–300.（中科院1区，IF=7.5）

[12]Dong-Yang Zhang, Xiao-Hui Yao, Meng Luo, Chun-jian Zhao, Yu-Jie Fu. Optimization of negative pressure cavitation–microwave assisted extraction of yellow horn seed oil and its application on the biodiesel production.Fuel,166 (2016) 67–72.（中科院1区，IF=7.5）

[11]Dong-Yang Zhang, Xiao-Hui Yao, Ming-Hui Duan, Fu-Yao Wei, Guo-Hua Wu, Long Li. Variation of essential oil content and antioxidant activity of species in different sites of China.Industrial Crops and Products , 77 (2015) 772–779.（中科院1区，IF=6.2）

[10]Dong-Yang Zhang, Xiao-Hui Yao, Ming-Hui Duan, Meng Luo, Chun-Jian Zhao, Yuan-Gang Zu, Yu-Jie Fu. An effective homogenate-assisted negative pressure cavitation extraction for the determination of phenolic compounds in pyrola by LC-MS/MS and the evaluation of its antioxidant activit. Food & Function, 6 (2015), 3323-3333.（中科院2区，IF=5.4）

[9]Dong-Yang Zhang, Xiao-Hui Yao, Ming-Hui Duan, Meng Luo, Wei Wang, Yu-Jie Fu, Yuan-Gang Zu, Thomas Efferth. An effective negative pressure cavitation-microwave assisted extraction for determination of phenolic compounds in P. calliantha H. Andr., Analyst, 2013, 138, 4631-4641. Analyst（中科院3区，IF=3.3）

[8]Dong-Yang Zhang, Meng Luo, Wei Wang, Chun-Jian Zhao, Cheng-Bo Gu, Yuan-Gang Zu, Yu-Jie Fu, Xiao-Hui Yao, Ming-Hui Duan. Variation of active constituents and antioxidant activity in pyrola [P. incarnata Fisch.] from different sites in Northeast China.Food Chemistry, 2013, 141, 2213-2219. （中科院1区，IF=9.8）

[7]Dong-Yang Zhang, Su Zhang, Yuan-Gang Zu, Yu-Jie Fu, Yu Kong, Yuan Gao, Jin-Tong Zhao, Thomas Efferth, Negative pressure cavitation extraction and antioxidant activity of genistein and genistin from the roots of pigeon pea [Cajanus cajan (L.) Millsp.]. Separation and Purification Technology 2010. 2, 261-270.（中科院2区，IF=9.0）

[6]Dong-Yang Zhang, Yuan-Gang Zu, Yu-Jie Fu, Meng Luo, Cheng-Bo Gu, Wei Wang, Xiao-Hui Yao, Negative pressure cavitation extraction and antioxidant activity of biochanin A and genistein from the leaves of Dalbergia odorifera T. Chen. Separation and Purification Technology 2011, 15, 91-99.（中科院2区，IF=9.0）

[5]Dong-Yang Zhang, Yuan-Gang Zu, Yu-Jie Fu, Wei Wang, Lin Zhang, Meng Luo, Fan-Song Mu, Xiao-Hui Yao, Ming-Hui Duan, Aqueous two-phase extraction and enrichment of two main flavonoids from pigeon pea roots and the antioxidant activity. Separation and Purification Technology 2013, 103, 26-33.（中科院2区，IF=9.0）

[4]Dong-Yang Zhang, Yuan-Gang Zu, Yu-Jie Fu, Meng Luo, Wei Wang, Cheng-Bo Gu, Chun-Jian Zhao, Jiao Jiao, Thomas Efferth, Enzyme pretreatment and negative pressure cavitation extraction of genistein and apigenin from the roots of pigeon pea [Cajanus cajan (L.) Millsp.] and the evaluation of antioxidant activity. Industrial Crops and Products. 2012, 37, 311-320（中科院1区，IF=6.2）

[3]Dong-Yang Zhang, Yuan-Gang Zu, Yu-Jie Fu, Wei Wang, Lin Zhang, Meng Luo, Fan-Song Mu, Xiao-Hui Yao, Ming-Hui Duan, Application of immobilized enzymes to accelerate the conversion of genistin to genistein in pigeon pea root extracts and the evaluation their antioxidant activity. Industrial Crops and Products. 2013, 43, 409-415（中科院1区，IF=6.2）

[2]Xiao-Hui Yao, Dong-Yang Zhang, Yuan-Gang Zu, Yu-jie Fu, Meng Luo, Cheng-Bo Gu, Chun-Ying Li, Fan-Song Mu, Thomas Efferth. Free radical scavenging capability, antioxidant activity and chemical constituents of Pyrola incarnata Fisch. leaves. Industrial Crops and Products,2013,49,247-255（中科院1区，IF=6.2）

[1]Wei Liu, Su Zhang, Yuan-Gang Zu, Yu-Jie Fu, Wei Ma, Dong-Yang Zhang, Yu Kong, Xiao-Juan Li, Preliminary enrichment and separation of genistein and apigenin from extracts of pigeon pea roots by macroporous resins. Bioresource Technology, 2010,101, 4667-4675（中科院1区，IF=9.0）