功能化纤维素及其纳米颗粒：形态、热性能和溶解性能研究。

Functionalized celluloses and their nanoparticles: morphology, thermal properties, and solubility studies.

机构信息

Polymer Science & Engineering Division, CSIR-National Chemical Laboratory, Pune 411008, India.

出版信息

Carbohydr Polym. 2014 Apr 15;104:135-42. doi: 10.1016/j.carbpol.2014.01.015. Epub 2014 Jan 20.

DOI:10.1016/j.carbpol.2014.01.015

Abstract

Agricultural residues derived cellulose was used to synthesize a new series of carboxy functionalized cellulosic nanoparticles (quasi-spherical shaped, 13.2-21.5% carboxyl content) and macro-sized 6-carboxycelluloses (long-fibril shaped, 1.7-22% carboxyl content). The DP (50-70) and yield (upto 46%) of nanoparticles were manipulated by controlling the reaction temperature and time. TGA/DTG thermographs of the carboxycelluloses gave thermostability data and co-related well with the residual crystalline, amorphous, and anhydroglucuronic acid content. The particle shape and size had no effect on the thermal stability. Some derivatives were fully or partially soluble in aqueous alkali and non-aqueous solvents, which can lead to increased versatility of these polymers.

摘要

农业残余物衍生的纤维素被用来合成一系列新的羧基功能化纤维素纳米粒子（准球形，13.2-21.5%的羧基含量）和大尺寸的 6-羧基纤维素（长纤维状，1.7-22%的羧基含量）。通过控制反应温度和时间，可以操纵纳米粒子的 DP（50-70）和产率（高达 46%）。羧基纤维素的 TGA/DTG 热图谱给出了热稳定性数据，并与残余结晶度、无定形度和脱水葡萄糖醛酸含量很好地相关。颗粒形状和大小对热稳定性没有影响。一些衍生物在水碱和非水溶剂中完全或部分溶解，这可以增加这些聚合物的多功能性。

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功能化纤维素及其纳米颗粒：形态、热性能和溶解性能研究。

Functionalized celluloses and their nanoparticles: morphology, thermal properties, and solubility studies.

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