Journal ArticleDOI
Hydrolysis of Cellulose by Amorphous Carbon Bearing SO3H, COOH, and OH Groups
Satoshi Suganuma,Kiyotaka Nakajima,Masaaki Kitano,Daizo Yamaguchi,Hideki Kato,Shigenobu Hayashi,Michikazu Hara +6 more
TLDR
The carbon catalyst can be readily separated from the saccharide solution after reaction for reuse in the reaction without loss of activity, and the catalytic performance of the carbon catalyst is attributed to the ability of the material to adsorb beta-1,4 glucan, which does not adsorb to other solid acids.Abstract:
The hydrolysis of cellulose into saccharides using a range of solid catalysts is investigated for potential application in the environmentally benign saccharification of cellulose. Crystalline pure cellulose is not hydrolyzed by conventional strong solid Bronsted acid catalysts such as niobic acid, H-mordenite, Nafion and Amberlyst-15, whereas amorphous carbon bearing SO 3H, COOH, and OH function as an efficient catalyst for the reaction. The apparent activation energy for the hydrolysis of cellulose into glucose using the carbon catalyst is estimated to be 110 kJ mol (-1), smaller than that for sulfuric acid under optimal conditions (170 kJ mol (-1)). The carbon catalyst can be readily separated from the saccharide solution after reaction for reuse in the reaction without loss of activity. The catalytic performance of the carbon catalyst is attributed to the ability of the material to adsorb beta-1,4 glucan, which does not adsorb to other solid acids.read more
Citations
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Preparation and Optimization of Macroalgae-Derived Solid Acid Catalysts
María Jesús Jiménez Toro,María Jesús Jiménez Toro,Xin Dou,Isaac Ajewole,Jiawei Wang,Katie Chong,Ning Ai,Ganning Zeng,Tao Chen +8 more
TL;DR: In this paper, a three-variable Box-Behnken design and optimization was used to maximize surface acidity of a macroalgae Sargassum horneri via hydrothermal carbonization followed by sulfuric acid sulfonation.
Journal Article
Synthesis of oil palm empty fruit bunch (EFB) derived solid acid catalyst for esterification of waste cooking oils
TL;DR: In this paper, a solid acid catalyst derived from EFB was used to catalyze the esterification process in biodiesel production from waste cooking oil, e.g. waste cooking oils (WCOs).
Journal ArticleDOI
Enhanced hydrolysis of cellulose by catalytic polyethersulfone membranes with straight-through catalytic channels.
Lilan Huang,Shaofei Wang,Han Zhang,Deyuan Li,Yuzhong Zhang,Lizhi Zhao,Qingping Xin,Hui Ye,Hong Li +8 more
TL;DR: The immobilization of GO-SO3H by PES improved its stability and reusability at high reaction temperature and provides guidance to the design of high-performance catalytic membranes.
Journal ArticleDOI
Enhanced Enzymatic Hydrolysis of Corncob by Synthesized Enzyme-Mimetic Magnetic Solid Acid Pretreatment in an Aqueous Phase.
Xu Qing,Wei Yang,Wei Yang,Guifeng Liu,Cuiyi Liang,Si Lu,Zhiqiang Qi,Jinke Hu,Qiong Wang,Wei Qi +9 more
TL;DR: A novel magnetic carbon-based solid acid catalyst was synthesized through a simple impregnation–carbonization process and used for the pretreatment of corncob in an aqueous medium, and this hydrolysis process is suitable for the effective and sustainable saccharification of lignocellulose for producing fermentable sugar.
Journal ArticleDOI
Sulfonated Beet Pulp as Solid Catalyst in One-Step Esterification of Industrial Palm Fatty Acid Distillate
Farahnaz Eghbali Babadi,Soraya Hosseini,Salman Masoudi Soltani,Mohamed Kheireddine Aroua,Ahmad Shamiri,Mahtab Samadi +5 more
TL;DR: In this article, a new heterogeneous catalyst has been prepared for biodiesel production, which was prepared by sulfonating industrial sugar waste and was used in the esterification reaction between palm fatty acid distillate and methanol.
References
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The path forward for biofuels and biomaterials
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Journal ArticleDOI
Bio-ethanol--the fuel of tomorrow from the residues of today.
TL;DR: This review gives an overview of the new technologies required and the advances achieved in recent years to bring lignocellulosic ethanol towards industrial production.