Production of Isobutylene from Syngas – Isosynthesis Over Zirconia-Based Catalysts

Publication date

2025-12

Authors

Heikkinen, Niko
Keskiväli, Laura
Kuutti, Krista
Ikonen, Rasmus
Baraiya, Bhumi A.
Korpelin, Ville
Lahtinen, Manu
Kanervo, Jaana
Heikkilä, Mikko J.
Ye, XinweiISNI 0000000492960577

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Advisors

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Document Type

Article
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cc_by

Abstract

This study presents the conversion of syngas (synthesis gas, CO + H2) into isobutylene with monoclinic zirconia (m-ZrO2), mixed monoclinic/tetragonal zirconia (m/t-ZrO2), tetragonal zirconia (t-ZrO2) and Ce/La-doped zirconia samples. The physical and chemical properties of the catalyst samples were characterised with nitrogen physisorption, NH3 and CO2 temperature-programmed desorption (TPD) and diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS). Sample material crystal structures were analysed with powder X-ray diffraction (PXRD) analysis. The pure monoclinic ZrO2 sample showed the best catalytic performance with 66% CO conversion and 44 mol-% C/hydrocarbons isobutylene selectivity at reaction conditions of 450 °C, 45 bar, GHSV = 2000 h−1, and CO: H2 = 1:1. While pure monoclinic ZrO2 was a highly efficient catalyst for the isosynthesis reaction, pure tetragonal ZrO2 produced only a minor amount of isobutylene (~ 1 mol-%C/hydrocarbons). Interestingly, Ce/La-doped zirconia had a cubic/tetragonal crystal structure, while showing selectivity and activity comparable to m-ZrO2 (CO conversion 64% and isobutylene selectivity of 40 mol-% C/hydrocarbons). Although samples with a purely t-ZrO₂ crystal phase significantly reduced the desired isobutylene selectivity, catalysts with relatively high Ce/La loadings (17% and 5% of the total catalyst mass) in the cubic/tetragonal crystal structure achieved high isobutylene activity and selectivity, owing to the dopant-induced high base-to-acid site ratio and enhanced synthesis gas adsorption capacity. According to the results from density functional theory (DFT) calculations, the poor selectivity of the t-ZrO2 phase towards isobutylene was due to the promoted intermediate methanation on the coordinatively saturated sites of t-ZrO2. Compared to the t-ZrO2 sample, m-ZrO2 showed high isobutylene selectivity and activity related to high base to acid site ratio, high synthesis gas adsorption capacity, and kinetically favourable crystal structure to form C2+ hydrocarbons from C1 intermediates. These results are important factors in the future work to prepare intrinsically active and isobutylene selective catalysts for the isosynthesis reaction.

Keywords

Isobutylene, Isosynthesis, Monoclinic, Syngas, Tetragonal, Zirconia catalyst, Catalysis, General Chemistry

Citation

Heikkinen, N, Keskiväli, L, Kuutti, K, Ikonen, R, Baraiya, B A, Korpelin, V, Lahtinen, M, Kanervo, J, Heikkilä, M J, Ye, X, Weckhuysen, B M, Honkala, K, Lehtonen, J & Reinikainen, M 2025, 'Production of Isobutylene from Syngas – Isosynthesis Over Zirconia-Based Catalysts', Topics in Catalysis, vol. 68, no. 20, pp. 2418-2432. https://doi.org/10.1007/s11244-025-02184-y