姓名:张翠歌
职称:副教授
部门:英国正版365官方网站
地址:芜湖市北京中路4号楼207室
邮编:241000
电话:13965150403
Email: zcg17131@ahpu.edu.cn
学术经历: 2016.11-至今,英国beat365官方网站入口,化学工程系,副教授 2019.08-2020.08,华盛顿州立大学,访问学者 2006.08-2016.10,英国beat365官方网站入口,化学工程系,讲师 开设课程: 主要开设《化工原理》、《食品工程原理》以及毕业论文,课程设计等实践性环节的课程 研究方向: 生物大分子改性及组装、高分子功能材料的制备 获奖情况: 1)英国beat365官方网站入口第十二届专利发明与创新大赛获优秀奖,2023; 2)第九届英国beat365官方网站入口“互联网+”老员工创新创业大赛(高教主赛道)研究生创意组二等奖,2023; 3)第十六届全国老员工化工设计竞赛中获得一等奖,2022; 4)安徽省教学成果三等奖,2022; 5)第七届英国beat365官方网站入口“互联网+”老员工创新创业大赛(高教主赛道)本科生创意组三等奖,2021; 6)第七届英国beat365官方网站入口“互联网+”老员工创新创业大赛(高教主赛道)研究生创意组优秀奖,2021; 7)第十二届全国老员工化工设计竞赛中获得二等奖,2018; 8)获校第十五届教学优秀三等奖,2013; 9)安徽省多媒体教育软件评奖高教组二等奖,2012。 主持项目: 1)国家自然科学青年基金项目:基于天然大分子复合组装纳米粒子功能乳液的制备及性能研究(51703001),25万元,2018.1−2020.12,主持; 2)芜湖市科技局重点研发项目:近零能耗多功一体化装配式混凝土墙板关键技术及产业化(2023yf085),21万元,2023.06-2025.06,主持 3)横向项目:高频导电材料性能研究,西安集智创雷电子科技有限公司,3万元,2023.12-2014.12,主持 4)安徽省教育厅重点项目:基于天然大分子自组装功能乳液的制备及性能研究(KJ2017A115),6万元,2017.1−2018.12,主持; 5)安徽省自然科学提升计划一般项目:金属离子和天然大分子复合组装纳米 粒子的制备及应用(TSKJ2016B17),1万元,2017.1−2018.12,主持; 6)江南大学合成与生物胶体教育部重点实验室开放课题:基于天然多糖自组 装功能乳液的制备及应用(JDSJ2016-03),2万元,2017.3−2019.3,主持; 7)英国beat365官方网站入口化学功能材料与技术重点实验室开放基金:基于金属离子/ 天然大分子复合组装纳米粒子功能乳液的制备及应用研究(KLCFMT160 2),0.5万元,2017.1−2018.12,主持; 8)英国beat365官方网站入口校级重点项目:“互联网+”教育背景下“食品工程原理课 程设计”教学改革研究(2022jyxm12),0.5万元,2023.1−2024.12,主持。 代表性论文: 2023年: [1] Xin Yan, Bo Xu, Chunmiao Xia, Maodong Xu, Bo Zeng, Rongli Zhang*, Longbao Zhu*, Cuige Zhang*, Dual drug-loaded core-shell nanofibers membranes via emulsion electrospinning and their controllable sustained release property, Journal of Drug Delivery Science and Technology, 2023, 88, 104909. [2] Cuige Zhang*, Bo Xu, Xin Yan, Chunmiao Xia, Maodong Xu*, Rongli Zhang*, Preparation and properties of functional emulsion based on bio-macromolecules self-assembled colloidal particles, J. Appl. Polym. Sci. 2023, 140(30), e54109. [3] Jingru Sun, Huan Liu, Sheng Xu, Ying Zhu, Chunmiao Xia, Lei Gan, Rongli Zhang*, Cuige Zhang*, Zongcheng Miao*, A fabrication strategy for porous carbon spheres based on cross-linked chitosan/poly(γ-glutamic acid) colloidal particles, J. Appl. Polym. Sci. 2023, 140(8), e53513. [4] Wanying Cui, Chunmiao Xia, Sheng Xu, Xinke Ye, Yihao Wu, Shukai Cheng, Rongli Zhang*, Cuige Zhang*, Zongcheng Miao*, Water-in-water emulsions stabilized by self-assembled chitosan colloidal particles, Carbohydrate Polymers, 2023, 303, 120466. [5] 范欣怡, 闫昕, 杨晗, 林慧婷, 许茂东, 张翠歌*.基于透明质酸自组装胶体粒子功能乳液的制备及缓释性能, 复合材料学报, 2023, 40(10): 5803-5810 2022年: [1] Minmin Weng, Chunmiao Xia, Sheng Xu, Qingzhong Liu, Yuan Liu, Huan Liu, Chaofei Huo, Rongli Zhang*, Cuige Zhang*, Zongcheng Miao*. Lipase/chitosan nanoparticle‑stabilized Pickering emulsion for enzyme catalysis. Colloid and Polymer Science, 2022, 300, 41-50. [2] Xiaoliang Yang, Huan Liu, Yuting Ji, Sheng Xu, Chunmiao Xia, Rongli Zhang*, Cuige Zhang*, Zongcheng Miao*, A molecularly imprinted biosensor based on water-compatible and electroactive polymeric nanoparticles for lysozyme detection, Talanta, 2022, 236, 122891. 2021年: [1] 基于透明质酸生物活性自组装胶体粒子制备及乳化性能,张翠歌,胡良,孙元峰,林浩东,罗宇浩,化学研究与应用,2021,33(2),309-316. [2] 基于海藻酸自组装胶体粒子的制备及其乳化性能,张翠歌,胡良,卢祖新,周佳慧,材料研究学报,2021, 35(10),761-768. 2020年发表文章: [1] Cuige Zhang, Rongli Zhang, Ye Zhu, Sheng Xu, Xiaoya Liu, Influence of ionic strength on gel-like Pickering emulsions stabilized by self-assembled colloidal nanoparticles containing lysozyme, Colloid and Polymer Science, 2020, 298, 1249-1262. 2018年前: [1] Rongli Zhang*, Can Jiang, Xiaoxia Fan, Renchun Yang, Yanyan Sun, Cuige Zhang*. A gold electrode modified with a nanoparticulate film composed of a conducting copolymer for ultrasensitive voltammetric sensing of hydrogen peroxide. Microchimica Acta, 2018, 185(58), 58-66. [2] Rongli Zhang*, Xiaofang Xu, Xiaoxia Fan, Renchun Yang, Tao Wu, Cuige Zhang*. Application of conducting micelles self-assembled from commercial poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) and chitosan for electrochemical biosensor. Colloid and Polymer Science, 2018, 296(1), 495–502. [3] Rongli Zhang*, Xiaoxia Fan, Xiaofang Xu, Jingjing Lv, Zhenzhen Jin, Hui Hao, Cuige Zhang*. Lotus-like nano-architectures constructed from self-assembled micelles via hierarchical assembly. Macromolecular Research, 2018, 26(1), 9-12. [4] Cuige Zhang, Rongli Zhang, Ye zhu, Wei Wei, Yao Gu, and Xiaoya Liu, Polymer vesicles prepared from the (L-Phenylalanine ethyl ester)-modified hyaluronic acid, Materials Letters, 2016, 164, 15-18. [6] 张翠歌,朱叶,罗静,魏玮,顾瑶,刘晓亚,Papain/HA-Phe 自组装复合纳米粒子及乳化性能, 高分子学报, 2016, 07, 20, 963-970. [7] Cuige Zhang, Suhan Yang, Ye Zhu, Rongli Zhang, Xiaoya Liu, Formation of bowl-shaped nanoparticles by self-assembly of cinnamic acid-modified dextran,Carbohydrate Polymers, 2015, 133, 637-643. [8] Cuige Zhang, Ye Zhu, Rongli Zhang, Yanling Xie, Kangjing Wang and Xiaoya Liu, Pickering emulsions stabilized by composite nanoparticles prepared from lysozyme and dopamine modified poly (γ-glutamic acid): effects of pH value on the stability of the emulsion and the activity of lysozyme, RSC Adv., 2015, 5, 90651-90658.
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