Scholars@Duke publication: Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM

Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM

Publication , Journal Article

Smith, J; Liccardo, G; Cendejas, MC; Stone, M; Mandal, S; Abild-Pedersen, F; Cargnello, M; Chi, M

Published in: ACS Materials Letters

August 5, 2024

Emission control catalysts are crucial for protecting human health by preventing the release of harmful gases and unburnt fuel into the atmosphere. These catalysts often face deactivation through sintering processes in high-temperature, chemically reactive environments containing multiple gas species. Here, we use in situ environmental scanning transmission electron microscopy to monitor the sintering behavior and transient morphologies of Pt/Al2O3 in various relevant gas environments through controlled experiments. Our results reveal the particle migration and atomic ripening behavior of Pt/Al2O3 at the atomic scale in the presence of water vapor and oxygen, which differs from behaviors observed in single gas environments. We identify an atomic ripening mechanism involving the dissociation and migration of Pt adatom chains from Pt nanoparticles, observed only in combinational gases. These findings provide valuable insights into catalyst degradation behavior in complex gas environments.

Duke Scholars

Author Miaofang Chi Thomas Lord Department of Mechanical Engineering and Materia ...

Published In

ACS Materials Letters

DOI

10.1021/acsmaterialslett.4c00422

EISSN

2639-4979

Publication Date

August 5, 2024

Volume

Issue

Start / End Page

3301 / 3311

Related Subject Headings

4016 Materials engineering

Citation

APA

Chicago

ICMJE

MLA

NLM

Smith, J., Liccardo, G., Cendejas, M. C., Stone, M., Mandal, S., Abild-Pedersen, F., … Chi, M. (2024). Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM. ACS Materials Letters, 6(8), 3301–3311. https://doi.org/10.1021/acsmaterialslett.4c00422

Smith, J., G. Liccardo, M. C. Cendejas, M. Stone, S. Mandal, F. Abild-Pedersen, M. Cargnello, and M. Chi. “Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM.” ACS Materials Letters 6, no. 8 (August 5, 2024): 3301–11. https://doi.org/10.1021/acsmaterialslett.4c00422.

Smith J, Liccardo G, Cendejas MC, Stone M, Mandal S, Abild-Pedersen F, et al. Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM. ACS Materials Letters. 2024 Aug 5;6(8):3301–11.

Smith, J., et al. “Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM.” ACS Materials Letters, vol. 6, no. 8, Aug. 2024, pp. 3301–11. Scopus, doi:10.1021/acsmaterialslett.4c00422.

Smith J, Liccardo G, Cendejas MC, Stone M, Mandal S, Abild-Pedersen F, Cargnello M, Chi M. Sintering Mechanism of Pt/Al2O3 in Complex Emission Gases Elucidated via In Situ Environmental STEM. ACS Materials Letters. 2024 Aug 5;6(8):3301–3311.

Published In

ACS Materials Letters

DOI

10.1021/acsmaterialslett.4c00422

EISSN

2639-4979

Publication Date

August 5, 2024

Volume

Issue

Start / End Page

3301 / 3311

Related Subject Headings

4016 Materials engineering