CICECO - Aveiro Institute of Materials, Department of Chemistry, University of Aveiro, 3810-193 Aveiro, Portugal.
School of Chemistry, University of Birmingham, Edgbaston B15 2TT, Birmingham, U.K.
J Am Chem Soc. 2020 Nov 18;142(46):19689-19697. doi: 10.1021/jacs.0c09489. Epub 2020 Nov 9.
With society's growing awareness of climate change, novel renewable and naturally sourced materials have received increasing attention as substitutes for petroleum-based products. Laminarin (LAM-OH) is a highly abundant, nontoxic, degradable polysaccharide found in marine organisms and hence is a promising sustainable polymeric candidate. This work reports on a simple, environmentally friendly, and customizable functionalization strategy for producing a toolbox of LAM-OH derivatives under mild conditions. Herein, natural-origin macromolecules exhibiting specific chemical moieties, namely, allyl, amine, carboxylic acid, thiol, aldehyde, and catechol, were prepared and chemically characterized. Furthermore, the obtained polymers were processed into cytocompatible hydrogels, obtained by employing distinct cross-linking mechanisms, to assess their potential for biomedical purposes. The application scope of such polymers could be extended to fields such as catalysis, cosmetics, life sciences, and food packaging, which can also benefit from having sustainable, nontoxic, and degradable materials. Moreover, it is anticipated that the methodology employed to create this library of new natural-based products could be adapted to modify other polysaccharides and biopolymers in general.
随着社会对气候变化认识的不断提高,新型可再生和天然来源的材料作为石油基产品的替代品受到了越来越多的关注。岩藻多糖(LAM-OH)是一种在海洋生物中含量丰富、无毒、可降解的多糖,因此是一种很有前途的可持续聚合物候选材料。本工作报道了一种简单、环保且可定制的功能化策略,可在温和条件下制备一系列岩藻多糖衍生物。在此,制备并化学表征了具有特定化学基团(烯丙基、胺、羧酸、巯基、醛和儿茶酚)的天然来源的大分子。此外,通过采用不同的交联机制,将获得的聚合物加工成细胞相容性水凝胶,以评估其在生物医学方面的潜在应用。这些聚合物的应用范围可以扩展到催化、化妆品、生命科学和食品包装等领域,这些领域也可以受益于具有可持续性、无毒和可降解的材料。此外,预计可以采用该方法来修饰其他多糖和生物聚合物。
