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个人简介

余跃,博士,助理研究员。2014年毕业于四川大学轻化工程专业,辅修市场营销专业,获工学和管理学双学士学位;2019年毕业于四川大学皮革化学与工程专业,获工学博士学位。2019年11月至今,在四川大学生物质与皮革工程系从事科研工作。 科研项目: 四川省科技创新创业苗子工程项目(2022JDRC0104),氧化壳聚糖–锆配合物的分子结构调控及其协同鞣制机理,2022-2023,项目负责人 四川大学博士后研发基金项目(2021SCU12094),氧化淀粉–锆配合物的协同鞣制机理研究,2021-2022,项目负责人 技术咨询项目(21H0004),生态皮革制造,2021-2023,项目负责人 技术咨询项目(22H0192),生态裘皮制造技术,2022-2023,项目负责人 专利和标准: (1)Yu Y, Wang Y N, Shi B, Guo X R, Zhou J F, Zeng Y H, Zhang W H, Cao M R. Light-colored polycarboxylated polysaccharide tanning agent, and preparation method and use thereof, 美国专利, US 17687715. (2)余跃, 王亚楠, 石碧, 郭雪茹, 周建飞, 曾运航, 张文华, 曹明蓉. 一种浅色多羧基氧化多糖鞣剂及其制备方法和应用, 中国专利, ZL 202110178497.6. (3)余跃, 曾运航, 石碧, 王亚楠, 周建飞. 皮革加脂剂及其制备方法, 中国专利, ZL 202111195959.1. (4)余跃, 王亚楠, 石碧, 周建飞, 曾运航, 张文华. 生态皮革无铬结合主鞣工艺, 中国专利, 202210171532.6. (5)余跃, 王亚楠, 石碧, 周建飞, 曾运航, 张文华. 可高温染色的生态裘皮无铬结合主鞣工艺, 中国专利, 202210171254.4. (6)王亚楠, 余跃, 石碧, 周建飞, 曾运航. 宽分布的多官能团多糖基配体金属配合物鞣剂的制备方法, 中国专利, ZL 201710546223.1. (7)王亚楠, 余跃, 石碧, 周建飞, 曾运航, 张文华. 生态皮革无铬鞣制工艺, 中国专利, 202210171515.2. (8)王亚楠, 余跃, 石碧, 周建飞, 曾运航, 张文华. 生态裘皮无铬鞣制工艺, 中国专利, 202210171251.0. (9)董新志, 余跃, 谢桃信, 王亚楠, 冯国立, 周建飞. 负氧离子组合物及其制备方法和应用, 中国专利, 202111373721.3. (10)马建标, 王亚楠, 桑军, 陈国栋, 王学川, 胡建中, 汤海涛, 耿振华, 章文福, 刘新华,余跃, 杨金, 庞晓燕. QB/T 5574-2021《绿色设计产品评价技术规范 毛皮》. 会议论文及报告: (1)Yu Y, Wang Z, Zhu M, Zhou J F, Wang Y N*, Shi B*. A novel chrome-free tanning technology based on the complex of zirconium and highly-oxidized starch. The 11th Asian International Conference on Leather Science and Technology, Xi’an, October 16-19, 2018, Oral presentation. (2)Yu Y, Zeng W C, Wang Y N, Shi Bi*. Inhibitory effect of protein filling agent from bovine hair on the oxidation of Cr(III). XXXIII International Union of Leather Technologists and Chemists Societies (IULTCS) Congress, Novo Hamburgo, Brazil, November 24-27, 2015, Poster.

研究领域

无铬鞣制材料及技术;制革/制裘清洁技术;生物质材料改性及应用

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

(1)Yu Y, Wang H, Wang Y N*, Zhou J F, Shi B. Chrome-free synergistic tanning system based on biomass-derived hydroxycarboxylic acid–zirconium complexes. Journal of Cleaner Production, 2022, 336, 130428. (2)Yu Y, Sun Q Y, Zeng Y H*, Lin Y R, Wang Y N, Shi B. Diagnosing the environmental impacts of typical fatliquors in leather manufacture from life cycle assessment perspective. Journal of Leather Science and Engineering, 2022, 4, 6. (3)Yu Y, Wang H, Wang Y N*, Zhou J F, Shi B. Construction of a chrome-free tanning system based on highly-oxidized starch–zirconium complexes. Journal of the American Leather Chemists Association. 2022, 117, 87-95. (4)Wang J Y, Yu Y*, Yue W, Fe Y E, Wang Y N, Shi B. Preparation of high solid content oxidized starch by acid pretreatment–H2O2 oxidation and its performance as the ligand in zirconium tanning. Carbohydrate Research. 2022, 511, 108501. (5)Yu Y, Lin Y R, Zeng Y H*, Wang Y N, Zhang W H, Zhou J F, Shi B. Life cycle assessment for chrome tanning, chrome-free metal tanning, and metal-free tanning systems. ACS Sustainable Chemistry & Engineering, 2021, 9(19), 6720-6731. (6)Yu Y, Huang M, Lv J Q, Zeng Y H*, Sun Q Y, Shi B. Evaluation and improvement of the oxidative stability of leather fatliquors. Journal of Leather Science and Engineering, 2021, 3, 29. (7)Wang Z, Wang Y N*, Yu Y*, Shi B. Tanning performance of a novel chrome-free complex tanning agent: penetration and distribution. Journal of the American Leather Chemists Association. 2021, 116(8), 277-283. (8)Guo X R, Yu Y*, Wang Y N*, Shi B. Oxidized Maltodextrin: a novel ligand for aluminum–zirconium complex tanning. Journal of the American Leather Chemists Association. 2021, 116(5), 155-161. (9)Yu Y, Zeng Y H, Wang Y N*, Liang T, Zhou J F, Shi B. Inverse chrome tanning Technology: a practical approach to minimizing Cr(III) discharge. Journal of the American Leather Chemists Association. 2020, 115(5), 176-183. (10)Yu Y, Wang Y N, Ding W, Zhou J F, Shi B*. Preparation of highly-oxidized starch using hydrogen peroxide and its application as a novel ligand for zirconium tanning of leather. Carbohydrate Polymers, 2017, 174, 823-829.

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