Stephen S. Kelley scite author profile

Lignin-based thermoplastic materials have attracted increasing interest as sustainable, cost-effective, and biodegradable alternatives for petroleum-based thermoplastics. As an amorphous thermoplastic material, lignin has a relatively high glass-transition temperature and also undergoes radical-induced self-condensation at high temperatures, which limits its thermal processability. Additionally, lignin-based materials are usually brittle and exhibit poor mechanical properties. To improve the thermoplasticity and mechanical properties of technical lignin, polymers or plasticizers are usually integrated with lignin by blending or chemical modification. This Review attempts to cover the reported approaches towards the development of lignin-based thermoplastic materials on the basis of published information. Approaches reviewed include plasticization, blending with miscible polymers, and chemical modifications by esterification, etherification, polymer grafting, and copolymerization. Those lignin-based thermoplastic materials are expected to show applications as engineering plastics, polymeric foams, thermoplastic elastomers, and carbon-fiber precursors.

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The effect of degree of acetylation on gas sorption and transport behavior in cellulose acetate

Puleo

Paul

Kelley

1989

Journal of Membrane Science

277

165

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Stephen S. Kelley

Relaxation behaviour of the amorphous components of wood

Lignin‐Based Thermoplastic Materials

The effect of degree of acetylation on gas sorption and transport behavior in cellulose acetate

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