Showing results 1 to 5 of 5
Biological pretreatment of cellulose: Enhancing enzymatic hydrolysis rate using cellulose-binding domains from cellulases Hall, Melanie; Bansal, Prabuddha; Lee, Jay H.; Realff, Matthew J.; Bommarius, Andreas S., BIORESOURCE TECHNOLOGY, v.102, no.3, pp.2910 - 2915, 2011-02 |
Cellulose crystallinity - a key predictor of the enzymatic hydrolysis rate Hall, Melanie; Bansal, Prabuddha; Lee, Jay H.; Realff, Matthew J.; Bommarius, Andreas S., FEBS JOURNAL, v.277, no.6, pp.1571 - 1582, 2010-03 |
Elucidation of cellulose accessibility, hydrolysability and reactivity as the major limitations in the enzymatic hydrolysis of cellulose Bansal, Prabuddha; Vowell, Bryan J.; Hall, Melanie; Realff, Matthew J.; Lee, Jay H.; Bommarius, Andreas S., BIORESOURCE TECHNOLOGY, v.107, pp.243 - 250, 2012-03 |
Modeling cellulase kinetics on lignocellulosic substrates Bansal, Prabuddha; Hall, Melanie; Realff, Matthew J.; Lee, JayHyung; Bommarius, Andreas S., BIOTECHNOLOGY ADVANCES, v.27, no.6, pp.833 - 848, 2009 |
Multivariate statistical analysis of X-ray data from cellulose: A new method to determine degree of crystallinity and predict hydrolysis rates Bansal, Prabuddha; Hall, Melanie; Realff, Matthew J.; Lee, JayHyung; Bommarius, Andreas S., BIORESOURCE TECHNOLOGY, v.101, no.12, pp.4461 - 4471, 2010-06 |
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