Arginine Acts as both Co-Solvent and Catalyst in Regioselective Eutectic-Mediated Dimerization of Levulinic Acid

Taylor Neal; Joseph Dull; Freddy Barnabas; Lori Bacca; Jacqueline Thomas; Curtis Moore; Yiping Sun; Jovica Badjić

doi:10.1002/cssc.202400503

Arginine Acts as both Co-Solvent and Catalyst in Regioselective Eutectic-Mediated Dimerization of Levulinic Acid

ChemSusChem. 2024 Jul 8;17(13):e202400503. doi: 10.1002/cssc.202400503. Epub 2024 May 3.

Authors

Taylor Neal¹, Joseph Dull², Freddy Barnabas², Lori Bacca², Jacqueline Thomas¹, Curtis Moore³, Yiping Sun¹, Jovica Badjić³

Affiliations

¹ Corporate Research & Development, The Procter & Gamble Company, 8700 Mason Montgomery Rd, Mason, OH 45040.
² Corporate Engineering, The Procter & Gamble Company, 8256 Union Centre Blvd, West Chester Township, OH, 45069.
³ Department of Chemistry & Biochemistry, The Ohio State University, 100 West 18th Avenue, Columbus, OH 43210.

PMID: 38575387
DOI: 10.1002/cssc.202400503

Abstract

A simple, solvent-free arginine-catalyzed aldol dimerization of levulinic acid was achieved via the simultaneous formation of a eutectic mixture. Dimers of levulinic acid are valued as biomass-derived fine chemical precursors, with potential to upgrade to bio-jet fuels or N-containing functional chemicals. Typically, these dimers are produced as isomeric mixtures using high temperatures and a variety of solid inorganic catalysts or mineral acids. In this study, an organocatalytic and regioselective dimerization was achieved at 22 % conversion on either a bench or kilogram scale using mild temperatures and only L-arginine as both a co-solvent and catalyst. The intricate H-bonding network comprising the eutectic solvent was harnessed to produce only one product, minimizing side reactivity and preserving the reactants for recycling.

Keywords: biomass conversion; eutectic solvents; organocatalysis.