Ni-Catalyzed Cleavage of Aryl Ethers in the Aqueous Phase

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Abstract

A novel Ni/SiO2-catalyzed route for selective cleavage of ether bonds of (lignin-derived) aromatic ethers and hydrogenation of the oxygen-containing intermediates at 120 °C in presence of 6 bar H2 in the aqueous phase is reported. The C–O bonds of α-O-4 and β-O-4 linkages are cleaved by hydrogenolysis on Ni, while the C–O bond of the 4-O-5 linkage is cleaved via parallel hydrogenolysis and hydrolysis. The difference is attributed to the fact that the Caliphatic–OH fragments generated from hydrolysis of α-O-4 and β-O-4 linkages can undergo further hydrogenolysis, while phenol (produced by hydrolysis of the 4-O-5 linkage) is hydrogenated to produce cyclohexanol under conditions investigated. The apparent activation energies, Ea(α-O-4) < Ea(β-O-4) < Ea(4-O-5), vary proportionally with the bond dissociation energies. In the conversion of β-O-4 and 4-O-5 ether bonds, C–O bond cleavage is the rate-determining step, with the reactants competing with hydrogen for active sites, leading to a maximum reaction rate as a function of the H2 pressure. For the very fast C–O bond cleavage of the α-O-4 linkage, increasing the H2 pressure increases the rate-determining product desorption under the conditions tested.

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