Breakdown of Cell Wall Nanostructure in Dilute Acid Pretreated Biomass

Citations Over TimeTop 10% of 2010 papers

Abstract

The generation of bioethanol from lignocellulosic biomass holds great promise for renewable and clean energy production. A better understanding of the complex mechanisms of lignocellulose breakdown during various pretreatment methods is needed to realize this potential in a cost and energy efficient way. Here we use small-angle neutron scattering (SANS) to characterize morphological changes in switchgrass lignocellulose across molecular to submicrometer length scales resulting from the industrially relevant dilute acid pretreatment method. Our results demonstrate that dilute acid pretreatment increases the cross-sectional radius of the crystalline cellulose fibril. This change is accompanied by removal of hemicellulose and the formation of R(g) ∼ 135 A lignin aggregates. The structural signature of smooth cell wall surfaces is observed at length scales larger than 1000 A, and it remains remarkably invariable during pretreatment. This study elucidates the interplay of the different biomolecular components in the breakdown process of switchgrass by dilute acid pretreatment. The results are important for the development of efficient strategies of biomass to biofuel conversion.

Related Papers

• → Genetic and molecular basis of grass cell-wall degradability. I. Lignin–cell wall matrix interactions(2004)271 cited
• → Modelling the reactions of cellulose, hemicellulose and lignin submitted to hydrothermal treatment(2018)95 cited
• → Pseudo-Lignin Content Decreased with Hemicellulose and Lignin Removal, Improving Cellulose Accessibility, and Enzymatic Digestibility(2020)47 cited
• → Synergistic improvement to dimensional stability of Populus cathay ana via hemicellulose removal/alkali lignin impregnation(2023)4 cited