Brønsted bases have recently been reported to catalyze the glucose isomerization to fructose. This contribution describes the rational bottom-up approach to the design and synthesis of heterogeneous systems based on a C platform surface engineered with catalytically active amino functionalities tethered to carbon nanomaterials within variable (polar/apolar) chemical microenvironments. We demonstrate how carbocatalysts performance for the glucose-to-fructose isomerization may improve depending on amines' neighboring functional groups and their chemical interplay at the C-nanocarrier surface.
Engineered Nitrogen-Decorated Carbon Networks for the Metal-Free Catalytic Isomerization of Glucose to Fructose
Tuci Giulia;Rossin Andrea;Luconi Lapo;Giambastiani Giuliano;
2019
Abstract
Brønsted bases have recently been reported to catalyze the glucose isomerization to fructose. This contribution describes the rational bottom-up approach to the design and synthesis of heterogeneous systems based on a C platform surface engineered with catalytically active amino functionalities tethered to carbon nanomaterials within variable (polar/apolar) chemical microenvironments. We demonstrate how carbocatalysts performance for the glucose-to-fructose isomerization may improve depending on amines' neighboring functional groups and their chemical interplay at the C-nanocarrier surface.File in questo prodotto:
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