Angela M. Norton scite author profile

Practical catalysts with a porous framework, such as zeolites, host catalytic reactions at active sites engrained in the pores and channels of the scaffold. The mechanism of interaction at these active sites, defining catalyst performance, remains elusive, in large part, due to the lack of surface characterization methods available for thick films or powders. Here, we present thin film analogs of practical catalysts that allow for the implementation of surface characterization tools, including advanced microscopy and operando spectroscopy methodologies. Specifically, we investigated bilayer silica, MFI nanosheets, and UiO-66 thin films using a multi-modal approach addressing film growth, characterization, and gas adsorption aimed at understanding catalytic activity, reactivity, and selectivity properties, as defined by molecular-level changes in the reaction mechanism.

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Direct speciation methods to quantify catalytically active species of AlCl₃in glucose isomerization

Norton

Nguyen

Xiao

et al. 2018

RSC Adv.

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Angela M. Norton

Renewable lubricants with tailored molecular architecture

Multi-modal surface analysis of porous films under operando conditions

Direct speciation methods to quantify catalytically active species of AlCl₃in glucose isomerization

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About

Angela M. Norton

Renewable lubricants with tailored molecular architecture

Multi-modal surface analysis of porous films under operando conditions

Direct speciation methods to quantify catalytically active species of AlCl3in glucose isomerization

Contact Info

Product

Resources

About

Direct speciation methods to quantify catalytically active species of AlCl₃in glucose isomerization