青島大學紡織服裝學院教授,工學博士,碩士研究生導師,紡織工程系副系主任,山東省一流本科課程負責人,入選2023年“全球前2%頂尖科學家”榜單。美國康奈爾大學訪問學者,美國內布拉斯加大學醫學中心博士後。連續多年被評為青島大學優秀研究生指導老師,指導學生榮獲2022中國紡織優秀碩士學位論文,2023山東省優秀碩士學位論文。擔任Nanomaterials、Engineered Regeneration、JoVE等雜誌的客座編輯,以及Progress in Materials Science、Advanced Functional Materials、Bioactive Materials、Biomaterials等 70 余種 SCI 雜誌的特約審稿人。
基本介紹
- 中文名:吳韶華
- 國籍:中國
- 學位/學歷:博士
- 職業:教師
- 專業方向:紡織科學與工程
人物經歷,研究方向,主要成就,
人物經歷
2006-2010年:青島大學 紡織材料與紡織品設計專業 學士,2010-2016年:東華大學-美國康奈爾大學聯合培養 生物醫用紡織材料專業 博士(碩博連讀),2016-2019年:美國內布拉斯加大學醫學中心再生醫學專業 博士後。
研究方向
生物醫用紡織品以及紡織製品基組織工程支架材料;新型微納米紡織品的研發、結構性能研究及其在生物醫學領域中的套用探索;將納米技術、聚合物改性、水凝膠合成以及3D列印與傳統紡織技術相結合製備新型功能性紡織製品,套用於組織工程等生物醫學領域。
主要成就
目前已發表SCI研究論文70餘篇,其中以第一或者通訊作者發表中科院一區top期刊近20篇,ESI高被引論文9篇,熱點論文4篇,論文總引用3000餘次,H指數33。主要研究成果發表於Biomaterials,Bioactive Materials,Biofabrication,Acta Biomaterialia,Materials Today Bio,Theranostics等生物醫用材料領域中的top期刊,以及Textile Research Journal,Journal of Industrial Textiles等國際紡織領域的權威期刊。已授權國內外專利15項,其中套用到企業實現成果轉化的發明專利4項,單項最高轉化金額為150萬。主持山東省自然科學基金1項、中國博士後基金1項,主持或參與企業橫向項目多項,參與中國國家自然科學基金、美國NIH、美國心臟協會等項目多項。近兩年的代表性論文成果如下:
(1) Zhiwei Li, Ye Qi, Zheng Li, Shaojuan Chen, Huimin Geng, Jinming Han, Jiahao Wang, Zhaoqing Wang, Sun Lei, Bin Huang, Gang Li, Xingang Li, Shaohua Wu (通訊作者), Shilei Ni. Nervous tract-bioinspired multi-nanoyarn model system regulating neural differentiation and its transcriptional architecture at single-cell resolution. Biomaterials, 2023, 298: 122146.
(2) Zhiwei Li, Ye Qi, Lei Sun, Zheng Li, Shaojuan Chen, Yuqi Zhang, Yuan Ma, Jinming Han, Zide Wang, Yulin Zhang, Huimin Geng, Bin Huang, Jian Wang, Gang Li, Xingang Li, Shaohua Wu (通訊作者), Shilei Ni. Three-dimensional nanofibrous sponges with aligned architecture and controlled hierarchy regulate neural stem cell fate for spinal cord regeneration. Theranostics, 2023, 13(14): 4762.
(3) Yiran Li, Qi Meng, Shaojuan Chen, Peixue Ling, Mitchell A. Kuss, Bin Duan, Shaohua Wu (通訊作者). Advances, challenges, and prospects for surgical suture materials. Acta Biomaterialia, 2023, 168, 78-112.
(4) Jiangyu Cai, Jiao Liu, Junjie Xu, Yufeng Li, Ting Zheng, Tianlun Zhang, Kang Han, Shaojuan Chen, Jia Jiang, Shaohua Wu (通訊作者), Jinzhong Zhao. Constructing high-strength nano-micro fibrous woven scaffolds with native-like anisotropic structure and immunoregulatory function for tendon repair and regeneration. Biofabrication, 2023, 15(2): 025002 (ESI高被引論文).
(5) Shaohua Wu, Yiran Li, Caidan Zhang, Litao Tao, Mitchell Kuss, Jung Yul Lim, Jonathan Butcher, Bin Duan. Tri‐layered and gel‐like nanofibrous scaffolds with anisotropic features for engineering heart valve leaflets. Advanced Healthcare Materials, 2022, 11(10): 2200053.
(6) Jiao Liu, Tao Li, Hao Zhang, Wenwen Zhao, Lijun Qu, Shaojuan Chen, Shaohua Wu (通訊作者). Electrospun strong, bioactive, and bioabsorbable silk fibroin/poly (L-lactic-acid) nanoyarns for constructing advanced nanotextile tissue scaffolds. Materials Today Bio, 2022, 14: 100243 (ESI高被引論文、熱點論文).
(7) Shaohua Wu, Ye Qi, Wen Shi, Mitchell Kuss, Shaojuan Chen, Bin Duan. Electrospun conductive nanofiber yarns for accelerating mesenchymal stem cells differentiation and maturation into Schwann cell-like cells under a combination of electrical stimulation and chemical induction. Acta biomaterialia, 2022, 139: 91-104 (ESI高被引論文).
(8) Shaohua Wu (通訊作者), Ting Dong, Yiran Li, Mingchao Sun, Ye Qi, Jiao Liu, Mitchell A Kuss, Shaojuan Chen, Bin Duan. State-of-the-art review of advanced electrospun nanofiber yarn-based textiles for biomedical applications. Applied Materials Today, 2022, 27: 101473 (ESI高被引論文).
(9) Shaohua Wu (通訊作者), Wenwen Zhao, Mingchao Sun, Peng He, Hongyu Lv, Qiuyu Wang, Shuo Zhang, Qian Wu, Peixue Ling, Shaojuan Chen, Jianwei Ma. Novel bi-layered dressing patches constructed with radially-oriented nanofibrous pattern and herbal compound-loaded hydrogel for accelerated diabetic wound healing. Applied Materials Today, 2022, 28: 101542 (ESI高被引論文).
(10) Yiran Li, Ting Dong, Zhiwei Li, Shilei Ni, Fang Zhou, Olawale A Alimi, Shaojuan Chen, Bin Duan, Mitchell Kuss, Shaohua Wu (通訊作者). Review of advances in electrospinning-based strategies for spinal cord regeneration. Materials Today Chemistry, 2022, 24: 100944 (ESI高被引論文、熱點論文).
