Abstract
Sn-BEA zeolite shows excellent catalytic performances for biomass transformation, and herein periodic density functional theory calculations accounting for the effect of zeolite framework are conducted to address the mechanistic aspects of glucose catalytic conversions. It is the synergistic effects of Na+ exchange, proximal silanol nest, and solvent (water/methanol) that cause the epimerization path via the Bilik mechanism to occur facilely at ambient conditions, and each of them plays a definite while disparate role. Na+ exchange reverses the relative stabilities of critical intermediates for the epimerization vs isomerization paths and drives the reaction toward the epimerization path with production of mannose. The proximal silanol nest participates in the Bilik reactions through the synchronous proton transfer to the sugar fragment, which is indispensable to promote the reaction thermodynamics and reduce the activation barriers. The activation barriers are generally lowered with increase of solvent (...
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