Pettignano Asja, Charlot Aurélia, Fleury Etienne
Université de Lyon, INSA LYON, Ingénierie des Matériaux Polymères IMP-UMR CNRS 5223, F 69621 Villeurbanne, France.
Polymers (Basel). 2019 Jul 23;11(7):1227. doi: 10.3390/polym11071227.
The present work explores the possibility of chemically modifying carboxymethyl cellulose (CMC), a widely diffused commercial cellulose ether, by grafting of hydrophobic moieties. Amidation of CMC, at high temperature and in heterogeneous conditions, was selected as synthetic tool for grafting on CMC a panel of commercially available amines (bearing long aliphatic chains, alkyl aromatic and heteroaromatic groups, more or less spaced from the cellulose backbone). The reaction was successfully carried out in absence of solvents, catalysts and coupling agents, providing a promising and more sustainable alternative to conventional amidation procedures. Relationships between the chemical structure of the obtained CMC derivatives and their thermal properties were carefully studied, with a particular attention to the thermal behavior. Grafting of aromatic and heteroaromatic alkyl amines, presenting a linear alkyl chain between CMC backbone and a terminal bulky moiety, allowed for efficiently separating the polysaccharide chains, improving their mobility and resulting in a consequent lowering of the glass transition temperature (). The values obtained (90-147 °C) were found to be closely dependent on both the size of the aliphatic spacer, the structure of the aromatic ring and the extent of amidation.
本研究探索了通过接枝疏水基团对羧甲基纤维素(CMC,一种广泛应用的商业纤维素醚)进行化学改性的可能性。在高温和非均相条件下对CMC进行酰胺化反应,被选作在CMC上接枝一系列市售胺类(带有长脂肪链、烷基芳基和杂芳基基团,与纤维素主链的间隔或多或少)的合成方法。该反应在无溶剂、催化剂和偶联剂的情况下成功进行,为传统酰胺化方法提供了一种有前景且更具可持续性的替代方案。仔细研究了所得CMC衍生物的化学结构与其热性能之间的关系,尤其关注热行为。接枝芳香族和杂芳香族烷基胺(在CMC主链和末端庞大基团之间存在线性烷基链)能够有效分离多糖链,提高其流动性,从而导致玻璃化转变温度降低。所获得的玻璃化转变温度值(90 - 147°C)被发现与脂肪族间隔基的大小、芳香环的结构以及酰胺化程度密切相关。
