化工进展 ›› 2024, Vol. 43 ›› Issue (8): 4624-4629.DOI: 10.16085/j.issn.1000-6613.2023-1085

• 资源与环境化工 • 上一篇    

单宁酸-纳米协同改性胶原纤维多孔材料的制备及其油水分离性能

石佳博(), 张宇轩, 陈雪峰, 谭蕉君   

  1. 陕西科技大学轻工科学与工程学院,轻化工程国家级实验教学示范中心,陕西 西安 710021
  • 收稿日期:2023-06-30 修回日期:2023-08-02 出版日期:2024-08-15 发布日期:2024-09-02
  • 通讯作者: 石佳博
  • 作者简介:石佳博(1989—),男,副教授,硕士生导师,研究方向为生物质材料与化学。E-mail:shijiabo@sust.edu.cn
  • 基金资助:
    国家自然科学基金青年基金(22208201);四川省科技成果转移转化示范项目(2024ZHCG0082);中国博士后科学基金(2023M743106);绵阳市中央引导地方科技发展资金项目(2023ZYDF037);大学生创新创业训练计划(202210708033);广西清洁化制浆造纸与污染控制重点实验室开放基金(KF201904);陕西省重点研发计划一般项目(2023-YBGY-474)

Preparation and oil-water separation property of tannic acid-nanoclay synergistically modified collagen fiber-based porous materials

SHI Jiabo(), ZHANG Yuxuan, CHEN Xuefeng, TAN Jiaojun   

  1. College of Bioresources Chemical and Materials Engineering and National Demonstration Center for Experimental Light Chemistry Engineering Education, Shaanxi University of Science & Technology, Xi’an 710021, Shaanxi, China
  • Received:2023-06-30 Revised:2023-08-02 Online:2024-08-15 Published:2024-09-02
  • Contact: SHI Jiabo

摘要:

以胶原纤维为代表的生物质基多孔材料因其具有可再生、储量丰富等特点且保留胶原纤维独特的多尺度孔隙结构以及具有优异的分离能力、可重复使用和可生物降解等优势,近年在含油废水处理等领域备受关注。针对胶原纤维多孔材料存在着油水分离效率低等问题,本文利用单宁酸与金属离子(铝和锆)掺杂锂藻土纳米片的协同交联体系来改性胶原纤维,制备了一种具有油水分离性能的胶原纤维基多孔材料。结果表明:该协同交联体系可提高胶原纤维多孔材料的自支撑性、成型性和多孔性,同时未改变胶原的三股螺旋构象并可起到稳定胶原微结构的作用;协同交联改性后胶原纤维多孔材料的收缩温度提升至90℃以上,接触角提升至98°以上,油水分离效率提升至68%以上,表明其热稳定性、疏水性以及油水分离性能均得以改善。

关键词: 生物质, 胶原纤维, 多孔材料, 协同交联, 油水分离, 纳米材料

Abstract:

In recent years, owing to their advantages of being renewable and abundant, retaining unique multi-scale pore structure, and exhibiting excellent separation ability, reusability and biodegradability, biomass-based porous materials represented by collagen fibers have attracted much attention in the fields of oil-containing wastewater treatment. To address the problems of low oil-water separation efficiency of collagen fiber porous materials, a novel collagen fiber-based porous material with oil-water separation performance was prepared by modification of collagen fibers using a synergistic cross-linking system of tannic acid and metal ion (aluminum and zirconium) doped Laponite nanoplatelets. The results showed that the synergistic cross-linking system improved the self-standing, formability and porosity of the porous material without altering the triple-helix conformation of the collagen and stabilizing the collagen microstructures. Moreover, after the synergistic cross-linking modification, the shrinkage temperature, water contact angle and oil-water separation efficiency of the collagen fiber porous material network were increased to over 90℃, 98° and 68%, respectively, indicating that the thermal stability, hydrophobicity and oil-water separation properties were improved.

Key words: biomass, collagen fibers, porous materials, synergistic crosslinking, oil-water separation, nanomaterials

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