Multi-Scale Structural Studies of Sequential Ionic Liquids and Alkali Pretreated Corn Stover and Sugarcane Bagasse

Ishwinder Kaur, G. Sahni
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引用次数: 4

Abstract

The complexity of plant cell walls impedes the conversion of cellulosic biomass to sugars. Pretreatment becomes a necessity to increase the digestibility of biomass. An in-depth understanding of the structure and underlying mechanisms governing deconstruction process is important. In the present study, the comprehensive investigation of morphological and structural changes in corn stover and sugarcane bagasse following ionic liquids dissolution and alkaline extraction was done using Fourier transform infrared spectroscopy, Thermogravimetric analysis, Confocal scanning laser microscopy, Atomic force microscopy and Dynamic light scattering studies. Both the substrates were pretreated with ILs 1-ethyl-3-methylimidazolium acetate and 1-butyl-3-methylimidazolium acetate followed by alkaline extraction. The pronounced changes such as lignin, hemicelluloses removal and decreased cellulose crystallinity after the pretreatments lead to the structural transformation of matrix polymers. The enzymatic hydrolysis showed 90% theoretical sugar yield in case of sugarcane bagasse and 80% in corn stover following synergistically combined pretreatments.
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顺序离子液体及碱预处理玉米秸秆和甘蔗渣的多尺度结构研究
植物细胞壁的复杂性阻碍了纤维素生物质向糖的转化。预处理成为提高生物质消化率的必要条件。深入了解解构过程的结构和潜在机制是很重要的。采用傅里叶变换红外光谱、热重分析、共聚焦扫描激光显微镜、原子力显微镜和动态光散射研究等方法,对离子液体溶解和碱性提取后玉米秸秆和甘蔗渣的形态和结构变化进行了全面研究。两种底物分别用乙酸1-乙基-3-甲基咪唑和乙酸1-丁基-3-甲基咪唑进行预处理,然后进行碱性萃取。预处理后木质素、半纤维素的去除和纤维素结晶度的降低等显著变化导致基质聚合物的结构转变。协同组合预处理后,蔗渣酶解理论产糖率为90%,玉米秸秆酶解理论产糖率为80%。
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