From α-pinene feedstock to value-added products: Scalable and Recyclable copper(II) catalysts for allylic oxidation

Abstract

α-Pinene is one of the most abundant and low-cost terpenes that can be used as an attractive and renewable feedstock for generating added-value products via allylic oxidation. Aiming at the development of more sustainable catalytic materials for the functionalization of terpenes, in this work two new 2D coordination polymers (CPs), {[Cu2(µ-pdc)(µ3-pdc)(H2mdea)(H2O)2]⸱2H2O}n (Cu-mdea) and {[Cu2(µ-pdc)(µ3-pdc)(H3tipa)(H2O)2]⸱4H2O}n (Cu-tipa) {H2pdc = 3,4-pyridinedicarboxylic acid, H2mdea = methyldiethanolamine and H3tipa = triisopropanolamine} were synthesized via self-assembly method under green conditions. These compounds were obtained from low-cost and environmentally tolerable reagents, and their scale-up process was also optimized in a ‘crystalline reactor’ from milligram to gram scale. The obtained CPs were applied as efficient and recyclable heterogeneous catalysts for the mild oxidation of α-pinene. The effects of various reaction parameters, temperature-dependent and mechanistic features, and catalyst stability were investigated in detail, leading to up to 93% of α-pinene conversion with good yields of 4-tert-butylperoxy-2-pinene (42%) and verbenone (25%) as main oxidation products. This study extends the application of α-pinene as a renewable feedstock for the synthesis of value-added oxidation products using recyclable heterogeneous catalysts and mild reaction conditions.