Mapping metals incorporation of a whole single catalyst particle using element specific X-ray nanotomography

Publication date

2015-01-14

Authors

Meirer, FlorianISNI 0000000137317800
Morris, Darius T
Kalirai, S.ISNI 0000000506769651
Liu, Yijin
Andrews, Joy C
Weckhuysen, B.M.ORCID 0000-0001-5245-1426ISNI 0000000110540180

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Abstract

Full-field transmission X-ray microscopy has been used to determine the 3D structure of a whole individual fluid catalytic cracking (FCC) particle at high spatial resolution and in a fast, noninvasive manner, maintaining the full integrity of the particle. Using X-ray absorption mosaic imaging to combine multiple fields of view, computed tomography was performed to visualize the macropore structure of the catalyst and its availability for mass transport. We mapped the relative spatial distributions of Ni and Fe using multiple-energy tomography at the respective X-ray absorption K-edges and correlated these distributions with porosity and permeability of an equilibrated catalyst (E-cat) particle. Both metals were found to accumulate in outer layers of the particle, effectively decreasing porosity by clogging of pores and eventually restricting access into the FCC particle.

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Citation

Meirer, F, Morris, D T, Kalirai, S, Liu, Y, Andrews, J C & Weckhuysen, B M 2015, 'Mapping metals incorporation of a whole single catalyst particle using element specific X-ray nanotomography', Journal of the American Chemical Society, vol. 137, no. 1, pp. 102-5. https://doi.org/10.1021/ja511503d