The University of Massachusetts Amherst
University of Massachusetts Amherst

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ChE Alumni Speaker, Thomas Epps, Univ. Delaware, “Advancing Sustainability: Small Molecules and Polymers from Biomass and Plastics Waste”, Day 1


Thursday, September 22, 2022 - 11:30am


162 Campus Center


There will also be a seminar on Friday, September 23, 2022 at 11:30 in 165 Campus Center


From a materials standpoint, advancing polymer sustainability involves the sourcing of materials from renewable feedstocks, along with the harnessing of polymer/plastics waste in the creation of closed-loop frameworks that valorize traditional waste. For the renewables case, lignin is the largest natural source of aromatic carbon on the planet, and thus, lignin-derived products have emerged as critical elements in the next generation of polymers. However, the valorization of lignin to high-performance and cost-competitive materials remains a challenge due to lignin’s perceived recalcitrance, inherent structural variability, and complexity of deconstructed lignin bio-oil mixtures. Recently, we have demonstrated that materials with reproducible thermal and mechanical characteristics can be synthesized in a controlled and predictable manner from batches of monomers with complex and somewhat variable compositions, such as minimally processed bio-oils obtained from deconstructed lignin. As one example, we have combined polymer science and catalysis to generate new, high-performance, pressure-sensitive adhesives from compounds obtained directly from raw biomass (poplar wood) deconstruction with properties, cost, and processing methods that were competitive and compatible with commercial tapes. Additionally, we have developed structure-activity relationships for lignin-derived compounds that were used to design new systems that had drop-in potential in both synthesis and materials properties (relative to petroleum-based analogues), yet most importantly, demonstrated reduced environmental impacts when screened by several common toxicity assays. Finally, we have leveraged these activities to design new catalytic processes that enable scalability towards continuous processes, along with the translation of these lignin deconstruction concepts to the recovery and valorization of macromolecules from polymer/plastics waste.

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