Issue 34, 2022

Modelling atomic layer deposition overcoating formation on a porous heterogeneous catalyst

Abstract

Atomic layer deposition (ALD) was used to deposit a protective overcoating (Al2O3) on an industrially relevant Co-based Fischer–Tropsch catalyst. A trimethylaluminium/water (TMA/H2O) ALD process was used to prepare ∼0.7–2.2 nm overcoatings on an incipient wetness impregnated Co–Pt/TiO2 catalyst. A diffusion–reaction differential equation model was used to predict precursor transport and the resulting deposited overcoating surface coverage inside a catalyst particle. The model was validated against transmission electron (TEM) and scanning electron (SEM) microscopy studies. The prepared model utilised catalyst physical properties and ALD process parameters to estimate achieved overcoating thickness for 20 and 30 deposition cycles (1.36 and 2.04 nm respectively). The TEM analysis supported these estimates, with 1.29 ± 0.16 and 2.15 ± 0.29 nm average layer thicknesses. In addition to layer thickness estimation, the model was used to predict overcoating penetration into the porous catalyst. The model estimated a penetration depth of ∼19 μm, and cross-sectional scanning electron microscopy supported the prediction with a deepest penetration of 15–18 μm. The model successfully estimated the deepest penetration, however, the microscopy study showed penetration depth fluctuation between 0–18 μm, having an average of 9.6 μm.

Graphical abstract: Modelling atomic layer deposition overcoating formation on a porous heterogeneous catalyst

Supplementary files

Article information

Article type
Paper
Submitted
01 Jun 2022
Accepted
09 Aug 2022
First published
11 Aug 2022
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2022,24, 20506-20516

Modelling atomic layer deposition overcoating formation on a porous heterogeneous catalyst

N. Heikkinen, J. Lehtonen, L. Keskiväli, J. Yim, S. Shetty, Y. Ge, M. Reinikainen and M. Putkonen, Phys. Chem. Chem. Phys., 2022, 24, 20506 DOI: 10.1039/D2CP02491H

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