通过基于点击化学的醋酸纤维素改性制备新型功能高分子材料

New Functional Polymer Materials via Click Chemistry-Based Modification of Cellulose Acetate.

作者信息

Röhrl Maximilian, Ködel Justus F, Timmins Renee L, Callsen Christoph, Aksit Merve, Fink Michael F, Seibt Sebastian, Weidinger Andy, Battagliarin Glauco, Ruckdäschel Holger, Schobert Rainer, Breu Josef, Biersack Bernhard

机构信息

Inorganic Chemistry 1, University of Bayreuth, Universitätsstrasse 30, 95440 Bayreuth, Germany.

Fachgruppe Chemie, Wirtschaftswissenschaftliches und Naturwissenschaftlich-Technologisches Gymnasium Bayreuth, Am Sportpark 1, 95448 Bayreuth, Germany.

出版信息

ACS Omega. 2023 Mar 9;8(11):9889-9895. doi: 10.1021/acsomega.2c06811. eCollection 2023 Mar 21.

DOI:10.1021/acsomega.2c06811

PMID:36969451

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10034841/

Abstract

Cellulose acetate (CA) was partially acrylated, and the resulting cellulose acetate acrylate (acryl-substitution degree of 0.2) underwent quantitative thio-Michael click reactions with various thiols. A toolbox of functional CA polymers was obtained in this way, and their properties were studied. The modification with fatty alkyl thiols led to hydrophobic materials with large water drop contact angles. Octadecylthio-, butoxycarbonylpropylthio-, and furanylthio-modifications formed highly transparent materials. The new derivative CAASFur disintegrated completely under industrial composting conditions. Films of modified CA polymers were cast and investigated in terms of barrier properties. The nanocomposite of CAAS18 compounded with a synthetic layered silicate (hectorite) of a large aspect ratio showed permeabilities as low as 0.09 g mm m day for water vapor and 0.16 cm mm m day atm for oxygen. This portfolio of functional CA polymers opens the door to new applications.

摘要

醋酸纤维素（CA）被部分丙烯酸酯化，所得的醋酸纤维素丙烯酸酯（丙烯酸取代度为0.2）与各种硫醇进行定量的硫代迈克尔点击反应。通过这种方式获得了一系列功能性CA聚合物，并对其性能进行了研究。用脂肪烷基硫醇进行改性得到了具有大水滴接触角的疏水材料。十八烷基硫醇、丁氧羰基丙基硫醇和呋喃基硫醇改性形成了高度透明的材料。新型衍生物CAASFur在工业堆肥条件下完全分解。浇铸改性CA聚合物薄膜并研究其阻隔性能。CAAS18与大长径比的合成层状硅酸盐（锂蒙脱石）复合的纳米复合材料对水蒸气的渗透率低至0.09 g·mm/(m²·day)，对氧气的渗透率为0.16 cm·mm/(m²·day·atm)。这一系列功能性CA聚合物为新应用打开了大门。

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通过基于点击化学的醋酸纤维素改性制备新型功能高分子材料

New Functional Polymer Materials via Click Chemistry-Based Modification of Cellulose Acetate.

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