2020
DOI: 10.1016/j.biortech.2019.122230
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Reversible covalent chemistry of carbon dioxide unlocks the recalcitrance of cellulose for its enzymatic saccharification

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Cited by 14 publications
(2 citation statements)
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“…The results showed a maximum conversion of cellulose to glucose of up to 95.6%. Li et al [158] and Gan and Peng [159] concluded with similar results using cellulose as feedstock. Moreover, MCW could be separated from mixed MW and gathered with the rest of lignocellulosic MW (textiles, paper, etc.)…”
Section: Energy Fuels and Materials Produced By Medical Waste Treatmentmentioning
confidence: 52%
“…The results showed a maximum conversion of cellulose to glucose of up to 95.6%. Li et al [158] and Gan and Peng [159] concluded with similar results using cellulose as feedstock. Moreover, MCW could be separated from mixed MW and gathered with the rest of lignocellulosic MW (textiles, paper, etc.)…”
Section: Energy Fuels and Materials Produced By Medical Waste Treatmentmentioning
confidence: 52%
“…For this reason, polymorphic changes in cellulose can determine its derivatization. For example, Gan et al (2020) reported tetramethyl guanidine-assisted catalysis for the polymorphic conversion of I to II of cellulose under a carbon dioxide (CO2) atmosphere at 50 °C using DMSO as a solvent, thus…”
Section: Oeps From Cellulosementioning
confidence: 99%