TY - JOUR
T1 - Upgrading biomass to high-added value chemicals: synthesis of monoterpenes-based compounds using catalytic green chemical pathways
AU - Sánchez-Velandia, Julián E.
AU - Gallego-Villada, Luis A.
AU - Mäki-Arvela, Päivi
AU - Sidorenko, Alexander
AU - Murzin, Dmitry
PY - 2024/4/8
Y1 - 2024/4/8
N2 - Monoterpenes derived from various biomass constitute an important platform for synthesizing fragrances, intermediates, and pharmaceuticals. In this review, the most recent and relevant transformations of terpenes are discussed with the primary focus on heterogeneous catalysis emphasizing green chemistry and green chemical engineering aspects. This review aims to outline significant recent advancements in the transformations of terpenes of particular importance for academic and industrial research. This is accomplished by highlighting the most pivotal reactions, including oxidation, epoxidation, hydroformylation, CO
2 cycloaddition, isomerization, condensation, and one-pot synthesis (such as tandem and telescopic reactions), using heterogeneous catalytic routes that have been published in the literature in the last decade. The review provides insights on the catalyst design for the transformations mentioned above tailoring selectivity and highlights the structure–activity relationship.
AB - Monoterpenes derived from various biomass constitute an important platform for synthesizing fragrances, intermediates, and pharmaceuticals. In this review, the most recent and relevant transformations of terpenes are discussed with the primary focus on heterogeneous catalysis emphasizing green chemistry and green chemical engineering aspects. This review aims to outline significant recent advancements in the transformations of terpenes of particular importance for academic and industrial research. This is accomplished by highlighting the most pivotal reactions, including oxidation, epoxidation, hydroformylation, CO
2 cycloaddition, isomerization, condensation, and one-pot synthesis (such as tandem and telescopic reactions), using heterogeneous catalytic routes that have been published in the literature in the last decade. The review provides insights on the catalyst design for the transformations mentioned above tailoring selectivity and highlights the structure–activity relationship.
U2 - 10.1080/01614940.2024.2329553
DO - 10.1080/01614940.2024.2329553
M3 - Översiktsartikel
SN - 0161-4940
JO - Catalysis Reviews: Science and Engineering
JF - Catalysis Reviews: Science and Engineering
ER -