High Entropy Catalysts for Synthesis of Biofuels (C₇–C₁₇) via the Adjustable Carbon Chain Increasing of Furfural (C₅) at Mild Temperature

Abstract: The number of carbon atoms is closely related to the properties of liquid fuels. As for furfural (FUR)-based biofuels, the regulation of carbon chain length is greatly significant to improve the quality. In this work, the C7–C17 fuel precursor has been successfully synthesized via the oxidative condensation processes of biomass-derived FUR with aliphatic alcohols. With the promotion of the MgLaFeMnCu high entropy catalyst (HECAT), the carbon chain increase of FUR is adjustable by changing the carbon number of … Show more

“…[25][26][27] Recently, MgLaFeMnCu high-entropy oxides showed good catalytic performance and successfully realized the oxidative condensation reaction of furfural with C 2 -C 12 fatty alcohols. 28 However, the use of high-entropy catalysts in the selective reduction of unsaturated carbonyl compounds still remains a challenge at present.…”

Selectivity-controllable hydrogen transfer reduction of α,β-unsaturated aldehydes over high-entropy catalysts

“…[25][26][27] Recently, MgLaFeMnCu high-entropy oxides showed good catalytic performance and successfully realized the oxidative condensation reaction of furfural with C 2 -C 12 fatty alcohols. 28 However, the use of high-entropy catalysts in the selective reduction of unsaturated carbonyl compounds still remains a challenge at present.…”

Selectivity-controllable hydrogen transfer reduction of α,β-unsaturated aldehydes over high-entropy catalysts

A sustainable and selective preparation of furanic ethers from bio-based platform compound with H2-treated MoS2 catalyst

High-entropy materials: Excellent energy-storage and conversion materials in the field of electrochemistry