Issue 7, 2020

Robust, remeltable and remarkably simple to prepare biomass–sulfur composites

Abstract

Lignocellulosic biomass holds a tremendous opportunity for transformation into carbon-negative materials, yet the expense of separating biomass into its cellulose and lignin components remains a primary economic barrier to biomass utilization. Herein is reported a simple procedure to convert several biomass-derived materials into robust, recyclable composites through their reaction with elemental sulfur by inverse vulcanization, a process in which olefins are crosslinked by sulfur chains. In an effort to understand the chemistry and the parameters leading to the strength of these composites, sulfur was reacted with four biomass-derivative comonomers: (1) unmodified peanut shell powder, (2) allyl peanut shells, (3) ‘mock’ allyl peanut shells (a mixture containing independently-prepared allyl cellulose and allyl lignin), or (4) peanut shells that have been defatted by extraction of peanut oil. The reactions of these materials with sulfur produce the biomass–sulfur composites PSx, APSx, mAPSx and dfPSx, respectively, where x = wt% sulfur in the monomer feed. The influence of biomass : sulfur ratio was assessed for PSx and APSx. Thermal/mechanical properties of composites were evaluated for comparison to commercial materials. Remarkably, unmodified peanut shell flour can simply be heated with elemental sulfur to produce composites having flexural/compressive strengths exceeding those of Portland cement, an effect traced to the presence of olefin-bearing peanut oil in the peanut shells. When allylated peanut shells are used in this process, a composite having twice the compressive strength of Portland cement is attained.

Graphical abstract: Robust, remeltable and remarkably simple to prepare biomass–sulfur composites

Supplementary files

Article information

Article type
Paper
Submitted
24 Jūl. 2020
Accepted
20 Sept. 2020
First published
30 Sept. 2020
This article is Open Access
Creative Commons BY-NC license

Mater. Adv., 2020,1, 2271-2278

Robust, remeltable and remarkably simple to prepare biomass–sulfur composites

M. K. Lauer, M. S. Karunarathna, A. G. Tennyson and R. C. Smith, Mater. Adv., 2020, 1, 2271 DOI: 10.1039/D0MA00538J

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