Litcius/Paper detail

Enhanced Catalytic Activity of Modified ZSM‐5 Towards Glucose Isomerization to Fructose

Rahul Gautam, Priyanka Pal, Shunmugavel Saravanamurugan

2022ChemPlusChem13 citationsDOI

Abstract

Abstract The present study focuses on generating mesopores within H−ZSM‐5 (H−Z) zeolite via desilication and dealumination to incorporate Lewis acidic metal, such as Sn, into the framework (Sn 4 ZS 180 A 15 ) to catalyse glucose isomerisation. Sn 4 ZS 180 A 15 possesses enhanced surface area (457 m 2 g −1 ), mesopore volume (0.585 cm 3 g −1 ) and a high weak‐medium to strong acidic sites ratio, compared to parent H−Z (395 m 2 g −1 ; 0.174 cm 3 g −1 ). DRS‐UV‐Vis and XPS results corroborate Sn incorporation into the framework of Sn 4 ZS 180 A 15 , based on the absorbance peak around 200–220 nm and peaks appearing at 495.8 and 487.4 eV, respectively. Sn 4 ZS 180 A 15 exhibits higher catalytic activity towards glucose isomerisation in ethanol−water at 110 °C, yielding 44.2 % fructose with 80.0 % selectivity. Conversely, the parent H−Z afforded negligible glucose conversion with a fructose yield of <1 % under identical conditions. Moreover, Sn‐incorporated on dealuminated (Sn 4 ZS 0 A 15 ) and desilicated (Sn 4 ZS 180 A 0 ) catalysts give a low yield of fructose (7–10 %), signifying the requirement of the desilication‐dealumination process before incorporating Sn into the framework.

Topics & Concepts

IsomerizationCatalysisChemistryMesoporous materialYield (engineering)FructoseZeoliteX-ray photoelectron spectroscopySelectivityZSM-5Inorganic chemistryLewis acids and basesEthanolNuclear chemistryChemical engineeringOrganic chemistryMaterials scienceMetallurgyEngineeringCatalysis for Biomass ConversionSupercapacitor Materials and FabricationMesoporous Materials and Catalysis
Enhanced Catalytic Activity of Modified ZSM‐5 Towards Glucose Isomerization to Fructose | Litcius