Whiting, Gareth T.,Nikolopoulos, Nikolaos,Nikolopoulos, Ioannis,Chowdhury, Abhishek Dutta,Weckhuysen, Bert M.

2019

January

Visualizing pore architecture and molecular transport boundaries in catalyst bodies with fluorescent nanoprobes

Published

()

11

1

23

31

The performances of porous materials are closely related to the accessibility and interconnectivity of their porous domains. Visualizing pore architecture and its role on functionality—for example, mass transport—has been a challenge so far, and traditional bulk and often non-visual pore measurements have to suffice in most cases. Here, we present an integrated, facile fluorescence microscopy approach to visualize the pore accessibility and interconnectivity of industrial-grade catalyst bodies, and link it unequivocally with their catalytic performance. Fluorescent nanoprobes of various sizes were imaged and correlated with the molecular transport of fluorescent molecules formed during a separate catalytic reaction. A direct visual relationship between the pore architecture—which depends on the pore sizes and interconnectivity of the material selected—and molecular transport was established. This approach can be applied to other porous materials, and the insight gained may prove useful in the design of more efficient heterogeneous catalysts.

1755-4349

https://doi.org/10.1038/s41557-018-0163-z