硕导 –张楠
Email: nanzhang@cczu.edu.cn
教育经历:
2011.9 – 2015. 6,江南大学,学士学位
2015.9 – 2022.1,江南大学,博士学位
2019.11 – 2020.11,南洋理工大学,联合培养博士
工作经历:
2022.1-至今,新葡萄88805官网 新葡萄88805官网 讲师
研究方向:
角蛋白、蛋白材料的溶解/降解及再生
蛋白基生物材料的开发
纺织生物技术
教学科研项目:
国家自然科学青年科学基金,52303004,2023.12-2026.12
2022年度纺织行业医疗健康用蚕丝制品重点实验室开放课题,SDHY2233,2022.11-2024.11
发表论文
Zhang N, Wang Q, Yuan J, Cui L, Wang P, Yu Y, et al. Highly efficient and eco-friendly wool degradation by L-cysteine-assisted esperase. Journal of Cleaner Production. 2018;192:433-42.
Zhang N, Wang Y, Wang Q, Yu Y, Wang P. Structure and Performance of Cuticles Isolated from Wool Fibers Using Different Approaches. Journal of Natural Fibers. 2022, 19(14): 7714-7727.
Zhang N, Lai HY, Gautam A, De Kwek DY, Dong Y, Wang Q, et al. An Enzymatic Method for Harvesting Functional Melanosomes after Keratin Extraction: Maximizing Resource Recovery from Human Hair. Journal of Polymers and the Environment. 2022,30(3):1045-1054.
Zhang N, Huang P, Ping wang, Yuanyuan Yu, Man Zhou, Qiang Wang*, Combined cutinase and kertatinolytic enzyme to endow improved shrinka-resistance to wool fabric [J]. Fibers and polymers, 2022, 4(23):985-992.
Zhang N, Li F, Yu YY, Wang P, Zhou M, Wang Q*, Surface hydrophobization of cotton via laccase-mediated polydopamine deposition and dodecyl gallate grafting [J]. Surface and Interface Analysis, 2022,54(3): 246-253.
Zhang N, Tian ZS, Yu YY, Wang p, Zhou M, Wang Q*, Enzymatic synthesis of sodium alginate-g-poly (acrylic acid) grafting copolymers as a novel printing thickener [J] Coloration Technology, 2021.
Zhang N,Wu ZR, Jiang Z, Zhou M, Yu YY, Wang P, Wang Q*, pH Mediated L-cysteine Aqueous Solution for Wool Reduction and Urea-Free Keratin Extraction [J]. Journal of Polymers and the Environment. 2022, 30(7):2714-2726.
Zhang Y, Zhang N, Wang Q, Wang P, Yu Y. A facile and eco-friendly approach for preparation of microkeratin and nanokeratin by ultrasound-assisted enzymatic hydrolysis. Ultrasonics Sonochemistry. 2020;68.105201
Huang C, Zhang N, Wang Q, Wang P, Yu Y, Zhou M. Development of hydrophilic anti-crease finishing method for Cotton fabric using alpha-Lipoic acid without causing strength loss and formaldehyde release problem. Progress in Organic Coatings. 2021;151.
专著
参编《纺织酶学》