稻秆提取纳米纤维素的合成工艺优化

K. M. Weerakkody, K.P.T. Wathsala, V. Weragoda
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引用次数: 1

摘要

纤维素是一种天然的生物高聚物,具有可回收性、可降解性、可再生性、无毒性、低密度和高功能性等优点。纳米晶纤维素是由纤维素纤维的酸水解得到的,但与纤维素纤维相比,纳米晶纤维素具有更高的比强度和模量,更高的比表面积,独特的光学性能等优点。本研究工作是从当地可用的水稻秸秆品种中提取纤维素。提取工艺包括脱蜡、脱木质素、漂白、酸水解、离心、透析、超声和冷冻干燥。用红外光谱分析发现,在脱蜡过程中,纤维中硅含量几乎全部溶解。XRD分析表明,随着离心温度和时间的增加,结晶度降低。对透析条件和超声参数进行了优化。最后,将水悬浮液冷冻干燥,得到纳米纤维素粉末。图像分析结果表明,在64 ~ 98 nm范围内,近50%的纤维素纤维结晶度为70%,最大产率为18.68%。
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Optimization of Synthesis of Nanocrystalline Cellulose Extracted from Rice Straw
Cellulose is a natural biopolymer that shows some attractive properties such as recyclability, biodegradability, renewability, non-toxicity, low density and high functionality. Nanocrystalline Cellulose is (NCC) obtained from acid hydrolysis of cellulose fibres but compared to cellulose fibres, NCC possesses many more advantages, such as higher specific strength and modulus, higher surface area, unique optical properties, etc. This research work extracts cellulose from locally available rice straw variety. The extraction process included dewaxing, delignification, bleaching, acid hydrolysis, centrifugation, dialysis, sonication and freeze drying. It was observed using FTIR analysis that almost all the silica content of fibres was solubilized in the dewaxing step. XRD analysis concluded the decrement of crystallinity with an increment of the temperature and time of the centrifugation. The dialysis conditions and sonication parameters were optimized. Finally, the aqueous suspension was freeze dried to obtain Nanocrystalline cellulose powder. The results of the image analysis showed that almost 50% of Cellulose fibres within the range of 64–98 nm with 70% crystallinity and maximum yield 18.68% of NCC.
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