Green and Atom Economical Route to High Compressive Strength Lignin Oil-Sulfur Composites

Tisdale, Katelyn A.; Dona, Nawoda L. Kapuge; Maladeniya, Charini P.; Smith, Rhett C.

doi:10.1007/s10924-024-03287-5

J Polym Environ

2024

DOI: 10.1007/s10924-024-03287-5

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Green and Atom Economical Route to High Compressive Strength Lignin Oil-Sulfur Composites

Katelyn A. Tisdale,

Nawoda L. Kapuge Dona,

Charini P. Maladeniya

et al.

Abstract: Lignin is the most abundant natural source of aromatics but remains underutilized. Elemental sulfur is a plentiful by-product of fossil fuel refining. Herein we report a strategy for preparing a durable composite by the one-pot reaction of elemental sulfur and lignin oil comprising lower molecular weight lignin derivatives. A lignin oil-sulfur composite (LOS90) was prepared by reacting 10 wt. % lignin oil with 90 wt. % elemental sulfur. The composite could be remelted and reshaped over several cycles without l… Show more

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Thermal and Mechanical Properties of Lignin Derivative–Sulfur Composites

Kapuge Dona,

Sauceda‐Oloño,

Smith

2024

Journal of Polymer Science

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Lignin, comprising 20%–35% of lignocellulosic biomass, is the second most abundant biopolymer after cellulose. As the bioethanol industry expands, the accumulation of lignin by‐products necessitates innovative valorization strategies. This study explores the synthesis and characterization of lignin‐derived composites. Specifically, the reaction of 20 wt. % lignin‐derived guaiacol or syringol with 80 wt. % elemental sulfur gives composites GS80 and SS80, respectively. The chemical structures of composites were elucidated using GC–MS, 1H NMR, and UV–Vis spectroscopy, revealing the formation of both SCaryl and SCalkyl bonds. Thermal and morphological analysis (via TGA, DSC, PXRD, and SEM‐EDS) indicated SS80 has higher crystallinity and thermal stability than GS80, attributed to a higher degree of crosslinking and a greater content of dark sulfur. Mechanical testing showed SS80 exhibits superior compressional and flexural strengths, and enhanced Young's modulus and Shore hardness, compared to GS80. Notably, the mechanical strength parameters for SS80 are comparable to those of C62 class bricks used in construction applications. These findings suggest that lignin‐derived composites, particularly those incorporating syringol, can provide viable alternatives to traditional materials in various applications, contributing to both waste valorization and sustainable materials science.

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Thermal and Mechanical Properties of Lignin Derivative–Sulfur Composites

Kapuge Dona,

Sauceda‐Oloño,

Smith

2024

Journal of Polymer Science

View full text Add to dashboard Cite

show abstract

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Green and Atom Economical Route to High Compressive Strength Lignin Oil-Sulfur Composites

Cited by 1 publication

References 40 publications

Thermal and Mechanical Properties of Lignin Derivative–Sulfur Composites

Thermal and Mechanical Properties of Lignin Derivative–Sulfur Composites

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