Chemistry
Rational design of solid-acid catalysts for cellulose hydrolysis using colloidal theory
Document Type
Article
Abstract
Solid-acid catalysts functionalized with catalytic groups have attracted intense interest for converting cellulose into soluble products. However, design of solid-7 acid catalysts has been guided by molecular level interactions and the actual mechanism of cellulose-solid-acid catalyst particles adsorption remains unknown. Here, colloidal stability theory, DLVO, is used to rationalize the design of solid acids for targeted cellulose adsorption. In nearly all cases, an energy barrier, arising from electrostatic repulsion and much larger than the energy associated with thermal fluctuations, prevents close contact between the solid acid and cellulose. Polymer-based solid-acid substrates such as polystyrene and Nafion are especially ineffective as their interaction with cellulose is dominated by the repulsive electrostatic force. Carbon and metal oxides have potential to be effective for cellulose-solid-acid interaction as their attractive van der Waals interaction can offset the repulsive electrostatic interaction. The effects of reactor temperature and shear force were evaluated, with the finding that reactor temperature can minimize the catalyst-cellulose interaction barrier, promoting coagulation, but that the shear force in a typical laboratory reactor cannot. We have evaluated strategies for enhancing cellulose-catalyst interaction and conclude that raising reaction temperature or synthesizing acid/base bifunctional catalysts can effectively diminish electrostatic repulsion and promote cellulose-catalyst coagulation. The analysis presented here establishes a rational method for designing solid acid catalysts for cellulose hydrolysis.
Publication Title
Physical Chemistry Chemical Physics
Publication Date
5-7-2021
Volume
23
Issue
17
First Page
10236
Last Page
10243
ISSN
1463-9076
DOI
10.1039/d1cp00198a
Keywords
catalysts, cellulose, coagulation, design, electrostatic force, hydrolysis, shear flow, Van der Waals forces
Repository Citation
Zhang, Ziyang; Tompsett, Geoffrey A.; Granados-Focil, Sergio; Lambert, Christopher R.; and Timko, Michael T., "Rational design of solid-acid catalysts for cellulose hydrolysis using colloidal theory" (2021). Chemistry. 63.
https://commons.clarku.edu/chemistry/63
