| 姓 名 | Atta ur Rehman Khan |
办公地点 | 实训楼4号楼4413 | |
办公电话 | 18621811215 | |
电子邮箱 | aurehman@sues.edu.cn | |
毕业学校 | 东华大学 | |
研究方向
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个人简历(可添加外文介绍,内容可删减) 学习与工作经历 2023.1-至今 上海工程技术大学,化学化工学院,讲师 2022-02-2022.12 巴基斯坦穆扎法拉巴德阿扎德查谟和克什米尔大学讲师 2017-09-2021-03 东华大学生物材料科学博士 2013-09-2016-01 巴基斯坦国际伊斯兰大学生物技术硕士 2002-09-2008-05 巴基斯坦拉瓦尔品第干旱农业大学生物学学士学位 承担项目 1. 角膜塑形镜晶状体材料合成工艺开发(2023-05 至 2026-12),参与者 荣誉奖项 1. 荣获“2021年度东华大学优秀国际毕业生”奖。 2. 荣获东华大学“优秀留学生奖”(2020)。 3.2017-2020年获中国政府奖学金博士学位。 代表性论著(论文、著作、专利) 1. L, Liu M, Li Y, Zhang S, Zhu T, Du J, Khan A※. Biomimetic short fiber reinforced 3-dimensional scaffold for bone tissue regeneration, Biomedical Materials, 2024,19, 025030. 2. Khan A, Huang K, Jinzhong Z, Zhu T, Yu F, Xie X, Mo X, Multifunctional Bioactive Core-shell Electrospun Membrane Capable to Terminate Inflammatory Cycle and Promote Angiogenesis in Diabetic Wound, Bioactive Materials, 6, 2021, 2783-2800. 3. Khan A, Huang K, Jinzhong Z, et al. Exploration of Antibacterial and Wound Healing Potential of PLGA/silk fibroin Based Electrospun Membrane Loaded with ZnO Nanoparticles. Journal of Materials Chemistry B, 9,2021,1452- 1465. 4. Khan A, Nadeem M, Bhutto M A, Yu F, Xie X, El-Hamshary H, El-Faham A, Ibrahim U A, Mo X, Physico-Chemical and Biological Evaluation of PLCL/SF Nanofibers Loaded with Oregano Essential Oil. Pharmaceutics 2019, 11, 386. 5. Khan A, Huang K, Jinzhong Z, Zhu T, Morsi Y, Aldalbahi A, El-Newehy M, Yan X, Mo X. PLCL/Silk fibroin based antibacterial nano wound dressing encapsulating oregano essential oil: Fabrication, characterization and biological evaluation. Colloids and Surfaces B: Biointerfaces,2020;196:111352. 6. Yu F, Pan J, Khan A, Zhao B, Yuan Z, Zai P, Li X, et al. Evaluation of natural protein-based nanofibers composite photocrosslinking hydrogel for skin wound regeneration, Colloids and Surfaces B: Biointerfaces, 2023,226, 113292. 7. Gu J, Zhang Q, Geng M, Wang W, Yang Jin, Khan A, Du H, Sha Z, Zhou X, He C. Construction of Nanofibrous Scaffolds with Interconnected Perfusable Microchannel Networks for Engineering of Vascularized Bone Tissue, Bioactive Materials, 6, 2021, 3254-3268. 8. Xie X, Cai J, Yao Y, Chen Y, Khan A, et al., A woven scaffold with continuous mineral gradients for tendon-to-bone tissue engineering, Composites Part B: Engineering, 212, 2021, 108679. 9. Xu X, Wang X, Qin C, Khan A, et al., Silk fibroin/poly-(L-lactide-co-caprolactone) nanofiber scaffolds loaded with Huangbai Liniment to accelerate diabetic wound healing, Colloids and Surfaces B: Biointerfaces, 2021;199:111557. 10. Yuan Z, Sheng D, Khan A, et al., Vascular Endothelial Growth Factor-Capturing Aligned Electrospun Polycaprolactone/Gelatin Nanofibers Promote Patellar Ligament Regeneration, Acta Biomaterialia, 2021; 140, 233-246. 11. Liang Song, Xianrui Xie, Cuiting Lv, Khan AR et al, Electrospun biodegradable nanofibers loaded with epigallocatechin gallate for guided bone regeneration, Composites Part B: Engineering, 238 (109920), 2022. 12. Liu M, Shafiq M, Sun B, Wu J, Wang W, Newehy M, Hamshary H, Morsi Y, Ali O, Khan A, Mo X, Composite Superelastic Aerogel Scaffolds Containing Flexible SiO2 Nanofibers Promote Bone Regeneration, Advanced Healthcare Materials, 2200499, 2022. 13. Yu F, Khan A, Zheng H, Li X, et al., A photocrosslinking antibacterial decellularized matrix hydrogel with nanofiber for cutaneous wound healing, Colloids and Surfaces B: Biointerfaces, 2022; 217: 112691. 14. Yu F, Khan A, Li Y, Zhao B, et al., A multifunctional nanofibers reinforced photo-crosslinking hydrogel for skin wound healing, Composite part B Engineering, 2022; 247; 110294. 15. Khan A, Morsi Y, Zhu T. et al. Electrospinning: An emerging technology to construct polymer-based nanofibrous scaffolds for diabetic wound healing. Frontier of Materials Science. 15,1,10-35 (2021). 16. Xie X, Chen Y, Wang X, Xu X, Shen Y, Khan A, et al., Electrospinning nanofibers scaffold for soft and hard tissue regeneration, Journal of materials science & technology, 2020,15, 243-261. | ||
