Correlative 3D characterization of hierarchical zeolite structures linking nano X-ray tomography and 360° electron tomography

Drobek D, Apeleo Zubiri B, Wirth J, Englisch S, Weissenberger T, Schwieger W, Spiecker E (2021)


Publication Type: Conference contribution, Original article

Publication year: 2021

Original Authors: Dominik Drobek,

Event location: Virtual

DOI: 10.22443/rms.emc2020.859

Abstract

In catalysis, the available total surface area for active sites is of utmost importance and the intraparticle pore space of a single particle has to be designed accordingly. In addition, the interparticle pore space, determining the packing density of a particle network, is also critical for catalytic applications. MFI-type zeolite particles exhibit such a structured pore system and can serve as support frameworks for catalytic applications. Applying multiscale Nano-X-ray tomography (Nano-CT) and 360° electron tomography (ET) reveals the complex morphology of a single MFI-type zeolite particle and even larger agglomerations of these particles can be analyzed in detail [1].

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APA:

Drobek, D., Apeleo Zubiri, B., Wirth, J., Englisch, S., Weissenberger, T., Schwieger, W., & Spiecker, E. (2021). Correlative 3D characterization of hierarchical zeolite structures linking nano X-ray tomography and 360° electron tomography. In Proceedings of the European Microscopy Congress 2020. Virtual.

MLA:

Drobek, Dominik, et al. "Correlative 3D characterization of hierarchical zeolite structures linking nano X-ray tomography and 360° electron tomography." Proceedings of the European Microscopy Congress 2020, Virtual 2021.

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