王宝秀副教授为东华大学博士，荷兰内梅亨大学联合培养博士，东华大学博士后。主持国家自然科学基金青年基金项目1项、中国博士后科学基金特别资助项目1项；获中国纺织工业联合会科技进步二等奖1项；以第一或通讯作者在Nano Energy、Acta Biomaterialia、Carbohydrate Polymers等期刊上发表论文14篇，获授权发明专利5项。

教育及工作经历                                                                                            

2022/11-至今 副教授 上海工程技术大学，化学化工学院

2020/01-2022/10 博士后 东华大学，王华平教授研究组

2017/10-2018/09 联培博士 荷兰内梅亨大学，Wilhelm T.S. Huck教授研究组（国家留学基金委公派博士生）

2017/06-2017/06 博士 访学日本东京工业大学、山形大学、东北大学（东华大学材料学院学生短期国际访学计划）

2013/09-2019/03 博士 东华大学，材料学，王华平教授研究组

2009/09-2013/06 本科 中原工学院，轻化工程

主要学术兼职                                                                                            

受邀为国际期刊 “Carbohydrate Polymers”、 “Biomacromolecuels” 审稿。

科研项目                                                                          

Ø  主持国家自然科学基金青年项目：促尿道修复细菌纤维素基双层仿生支架的构建及评价，52003048，2021/01-2022/12，16万。

Ø  主持中国博士后科学基金第14批特别资助（站中）：促血管化与上皮化细菌纤维素基仿生尿道支架的构建及其尿道修复研究，2021T140110，2021/09-2022/12，18万。

Ø  主持研究生创新基金及追加项目：“VEGF@NPs修饰细菌纤维素基支架的制备及其在尿道修复中的应用研究”，102552017036，2017/03-2018/12，3.5万。

Ø  参与国家自然科学基金面上项目：程序式释放VEGF的可降解细菌纤维素构建组织工程尿道的实验研究，81370795，2014/01-2017/12，70万。

Ø  参与国家自然科学基金面上项目：医用细菌纤维素材料微/纳结构设计、调控及应用评价，51573024，2016/01-2019/12，63万。

Ø  参与国家自然科学基金面上项目：细菌纤维素基功能柔性膜材料的可控构筑与表征，51273043, 2013/01-2016/12，80万。

研究成果                                                                         

Ø  Zhuotong Wu^#,*, Baoxiu Wang^#, Jing Li, Yuhang Jia, Shiyan Chen*, Huaping Wang, Lihui Chen, and Li Shuai*. Stretchable and Durable Bacterial Cellulose-Based Thermocell with Improved Thermopower Density for Low-Grade Heat Harvesting[J]. Nano Letters, 2023, 23(22):10297-10304. (大类学科一区，IF: 18)

Ø  Kangkang Ou, Jingbo, Yijun Hou, Kun Qi, Yunling Dai, Mengting Wang, Baoxiu Wang^*, Hierarchical nanofibrous and recyclable membrane with unidirectional water-transport effect for efficient solar-driven interfacial evaporation[J]. Journal of Colloid and Interface Science, 2024, 656::474-484. (大类学科一区，IF: 9.9)

Ø  Baoxiu Wang^#, Jiahui Li^#, Zhuotong Wu, Nan Sheng, Minghao Zhang, Zhiliang Han, Mengtian Jin, Jing Li, Xiangguo Lv^*, Kangkang Ou^*, Huaping Wang, Shiyan Chen^*. Salinity power generation based biocompatible bacterial cellulose/MXene membrane for biological power source[J]. Nano Energy, 2022, 102:107702. (大类学科一区，IF: 17.6)

Ø  Lili Deng, Baoxiu Wang^*, Wenying Li, Zhiliang Han, Shiyan Chen, Huaping Wang. Bacterial cellulose reinforced chitosan-based hydrogel with highly efficient self-healing and enhanced antibacterial activity for wound healing[J]. International Journal of Biological Macromolecules, 2022, 217:77-87. (大类学科一区，IF: 8.2)

Ø  Baoxiu Wang^#, Xiangguo Lv^#, Zhe Li^*, Minghao Zhang, Jingjing Yao, Nan Sheng, Mujun Lu^*, Huaping Wang, Shiyan Chen^*. Urethra-inspired biomimetic scaffold: A therapeutic strategy to promote angiogenesis for urethral regeneration in a rabbit model[J]. Acta Biomaterialia, 2020, 102: 247-258. (大类学科一区，IF: 9.7)

Ø  Jiaxin Wei, Baoxiu Wang*, Zhe Li, Zhuotong Wu, Minghao Zhang, Nan Sheng, Qianqian Liang, Huaping Wang, Shiyan Chen*. A 3D-printable TEMPO-oxidized bacterial cellulose/alginate hydrogel with enhanced stability via nanoclay incorporation. Carbohydrate polymers, 2020, 238: 116207. (大类学科一区，IF: 11.7)

Ø  Baoxiu Wang^#, Xiangguo Lv^#, Shiyan Chen^*, Zhe Li, Jingjing Yao, Xufeng Peng, Chao Feng, Yuemin Xu^*, Huaping Wang^*.Use of heparinized bacterial cellulose based scaffold for improving angiogenesis in tissue regeneration. Carbohydrate polymers, 2018, 181, 948-956. (大类学科一区，IF: 11.7)

Ø  Qianqian Liang, Dong Zhang, Yuchen Wu, Shiyan Chen*, Zhiliang Han, Baoxiu Wang*, Huaping Wang*. Self-stretchable fiber liquid sensors made with bacterial cellulose/carbon nanotubes for smart diapers[J]. ACS Appl. Mater. Interfaces, 2022, 14(18): 21319-21329. (大类学科二区，IF: 9.5)

Ø  Xiangyang Qu, Yuchen Wu, Peng Ji*, Baoxiu Wang*, Qianqian Liang, Zhiliang Han, Jing Li, Zhuotong Wu, Shiyan Chen*, Guanglin Zhang, and Huaping Wang. Crack-based core-sheath fiber strain sensor with an ultralow detection limit and an ultrawide working range[J]. ACS Appl. Mater. Interfaces 2022, 14(25): 29167-29175. (大类学科二区，IF: 9.5)

Ø  Zhiliang Han, Shiyan Chen*, Lili Deng, Qianqian Liang, Xiangyang Qu, Jing Li, Baoxiu Wang*, Huaping Wang. Anti-fouling, adhesive polyzwitterionic hydrogel electrodes toughened using a tannic acid nanoflower[J]. ACS Appl. Mater. Interfaces 2022, 14(40): 45954-45965. (大类学科二区，IF: 9.5)

Ø  Wenying Li, Baoxiu Wang*, Minghao Zhang, Zhuotong Wu, Jiaxin Wei, Yu Jiang, Nan Sheng, Qianqian Liang, Dong Zhang, Shiyan Chen*. All-natural injectable hydrogel with self-healing and antibacterial properties for wound dressing. Cellulose, 2020, 27(5): 2637-2650. (小类学科一区，IF: 5.7)

Ø  Baoxiu Wang^#, Xiangguo Lv^#, Zhe Li^*, Yongbo Yao, Zhiyong Yan, Junlu Sheng, Shiyan Chen^*.  A simple method for controlling the bacterial cellulose nanofiber density in 3D scaffolds and its effect on the cell behavior[J]. Cellulose, 2019, 26(12): 7411-7421. (小类学科一区，IF: 5.7)

Ø  Baoxiu Wang, Chengsheng Huang, Shiyan Chen^*, Xueyu Xing, Minghao Zhang, Qingkai Wu^*, Huaping Wang^*.Hybrid scaffolds enhanced by nanofibers improve in vitro cell behavior for tissue regeneration. Cellulose, 2018, 25, 7113-7125. (小类学科一区，IF: 5.7)

Ø  Baoxiu Wang^#, Xiangguo Lv^#, Shiyan Chen^*, Zhe Li, Jingjing Yao, Xufeng Peng, Chao Feng, Yuemin Xu^*, Huaping Wang^*.  Bacterial cellulose/gelatin scaffold loaded with VEGF-silk fibroin nanoparticles for improving angiogenesis in tissue regeneration. Cellulose, 2017, 24(11), 5013-5024. (小类学科一区，IF: 5.7)

Ø  Baoxiu Wang^#, Xiangguo Lv^#, Shiyan Chen^*, Zhe Li, Xiaoxiao Sun, Chao Feng^*, Huaping Wang^*, Yuemin Xu. In vitro biodegradability of bacterial cellulose by cellulase in simulated body fluid and compatibility in vivo. Cellulose, 2016, 23(5), 3187-3198. (小类学科一区，IF: 5.7)

Ø  Baoxiu Wang, Peng Ji^*, Yiding Ma, Jianchun Song, Zhengwei You, Shiyan Chen. Bacterial cellulose nanofiber reinforced poly(glycerol-sebacate) biomimetic matrix for 3D cell culture. Cellulose, 2021,28:8483-8492. (小类学科一区，IF: 5.7)

Ø  Zhuotong Wu, Peng Ji^*, Baoxiu Wang, Nan Sheng, Minghao Zhang, Shiyan Chen^*, Huaping Wang. Oppositely charged aligned bacterial cellulose biofilm with nanofluidic channels for osmotic energy harvesting. Nano Energy, 2021, 80,105554. (大类学科一区，IF: 17.6)

Ø  王宝秀；陈仕艳；欧康康；张茗皓；吴擢彤；盛楠；韩志良；梁欠倩；贾宇航；王华平。一种结构和功能仿生尿道支架及其制备方法, CN113750297B

Ø  王华平；姚晶晶；陈仕艳；王宝秀; 关方怡；陈燕；江振林。一种基于细菌纤维素纳米纤维定向排列的宏观纤维及其制备方法，CN105926063B

Ø  王华平；姚晶晶；陈仕艳；王宝秀; 关方怡；陈燕；江振林。基于细菌纤维素纳米纤维定向排列的宏观纤维及其制备方法。CN105926050B

Ø  王华平；姚晶晶；陈仕艳；王宝秀; 关方怡；陈燕；江振林。细菌纤维素纳米纤维基定向排列的宏观纤维及其制备方法。CN105926065B

Ø  陈仕艳；王蕾；李喆；王宝秀；关方怡；姚晶晶；刘娜；王华平。一种细菌纤维素复合氧化亚铜抗菌敷料及其制备方法。CN105311668B

参加会议                                                           

Ø  2023年，中国上海，第十一届先进纤维与聚合物材料国际会议，邀请报告

Ø  Biocompatible bacterial cellulose based biofilms with improved ion transport for salinity power generation

Ø  2019年，中国上海，第九届先进纤维与聚合物材料国际会议，口头报告

Urethra-inspired biomimetic scaffold: A therapeutic strategy to promote angiogenesis for urethral regeneration in a rabbit model

Ø  2016年，法国米卢斯，纤维协会国际会议，口头报告

Controlled release of VEGF from bacterial cellulose based scaffolds for improved angiogenesis

Ø  2015年，中国厦门，第二届海峡两岸功能材料科技与产业峰会，墙报展示

纤维素酶降解细菌纤维素的体内体外研究