University of Georgia / ES complex / Institute of Bioinformatics / / /
IndustryTerm
glucan chains / respective cellulose chains / outermost chains / power law geometries / non-complexed cellulase systems / mechanical processing increases / industrial applications / online version / chain site / assumed power law behavior nV ðlÞ / dirty chain / concomitant solutions / mechanical processing / human energy use / microscopy imaging techniques / bond site / type-n surface site / cellulose chains / sub-micron imaging / longer chains / thermo-chemical pre-treatment / cellulase systems / power law dependence / thermo-chemical pretreatment / /
Organization
University of Georgia / Athens / National Science Foundation / Institute of Bioinformatics / Department of Physics and Astronomy / Department of Biochemistry and Molecular Biology / BioEnergy Science Center / Department of Physics / U.S. Department of Energy Contract / / /
Position
Author / Prime Minister / Proof Model Development Surface Site Ablation Rate Equations / General / Marshall / /
ARTICLE Author Proof Cellulose Hydrolysis in Evolving Substrate Morphologies I: A General Modeling Formalism