L.T. Fan scite author profile

SummaryThe susceptibility of cellulose to enzymatic hydrolysis is affected by the structural features of cellulosic materials. It has been suggested that the crystallinity and surface area of cellulose fibers are the most important structural features in this regard. This study investigated in depth the relative effects of these two structural features upon the enzymatic hydrolysis of cellulose and the change of the structural parameters of cellulose during the course of hydrolysis. It was found that the hydrolysis rate is mainly dependent upon the fine structural order of cellulose which can best be represented by the crystallinity rather than the simple surface area. Monitoring the changes in the structural parameters during the course of reaction showed that surface area is not a major limiting factor that slows hydrolysis in its late stages as has been suggested. This information concerning structural features is used to elucidate the mode of action of cellulase.

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Microplastics in urban and highway stormwater retention ponds

Fan¹,

Olesen²,

Borregaard³

et al. 2019

Science of The Total Environment

289

178

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Graph-theoretic approach to process synthesis: Polynomial algorithm for maximal structure generation

Friedler

Tarján

Huang

et al. 1993

Computers & Chemical Engineering

227

123

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Cellulose Hydrolysis

Fan

Gharpuray²,

Lee

1987

253

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The nature of lignocellulosics and their pretreatments for enzymatic hydrolysis

1982

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The influence of major structural features of cellulose on rate of enzymatic hydrolysis

Fan

Lee

Beardmore

1981

Biotech & Bioengineering

177

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Activated carbons prepared from phosphoric acid activation of grain sorghum

Diao

Walawender

Fan

2002

Bioresource Technology

187

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Recent developments in solids mixing

1990

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L.T. Fan

Mechanism of the enzymatic hydrolysis of cellulose: Effects of major structural features of cellulose on enzymatic hydrolysis

Microplastics in urban and highway stormwater retention ponds

Graph-theoretic approach to process synthesis: Polynomial algorithm for maximal structure generation

Cellulose Hydrolysis

The nature of lignocellulosics and their pretreatments for enzymatic hydrolysis

The influence of major structural features of cellulose on rate of enzymatic hydrolysis

Activated carbons prepared from phosphoric acid activation of grain sorghum

Recent developments in solids mixing

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