Photocatalyzed hydrodecarboxylation of fatty acids: a prospective method to produce drop-in biofuels

Amanda M de Azevedo; Jhudson G L de Araujo; Maria do S B da Silva; Aecia S D Dos Anjos; Aruzza M M de Araújo; Elisama V Dos Santos; Carlos Alberto Martínez-Huitle; Amanda D Gondim; Lívia N Cavalcanti

doi:10.1039/d4ra01166j

Photocatalyzed hydrodecarboxylation of fatty acids: a prospective method to produce drop-in biofuels

RSC Adv. 2024 Apr 3;14(15):10755-10760. doi: 10.1039/d4ra01166j. eCollection 2024 Mar 26.

Authors

Amanda M de Azevedo¹, Jhudson G L de Araujo¹, Maria do S B da Silva¹, Aecia S D Dos Anjos¹, Aruzza M M de Araújo¹, Elisama V Dos Santos¹, Carlos Alberto Martínez-Huitle¹, Amanda D Gondim¹, Lívia N Cavalcanti¹

Affiliation

¹ Federal University of Rio Grande do Norte, Institute of Chemistry 59072-970 Natal RN Brazil livia.cavalcanti@ufrn.br.

Abstract

A direct and practical method for photocatalyzed hydrodecarboxylation of fatty acids is reported herein. The catalytic system consists of a commercially available acridinium salt as the photocatalyst and thiophenol as the Hydrogen Atom Transfer (HAT) co-catalyst. Results evidenced that C_n-1 alkanes were obtained in yields up to 77%. Furthermore, the protocol was employed for a complex mixture of fatty acids bio-derived from a real sample of licuri oil to obtain hydrocarbons in the range of C₉-C₁₇ with high selectivity and excellent conversion (>90%). This work provides a powerful strategy for producing drop-in biofuels under mild conditions. Finally, an energetic assessment of our proposed protocol (∼22.9 kW h) reveals the benefit of a sustainable production of renewable hydrocarbons.