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Meeting

MS&T25: Materials Science & Technology

Symposium

Advances in Dielectric Materials and Electronic Devices

Presentation Title

Low-carbon hydrogen production via water-splitting-driven by piezoelectric and pyroelectric catalysis

Author(s)

Salma Touili, Mimoun El Marssi, Daoud Mezzane, M'Barek Amjoud, Mustapha Jouiad, Buchra Asbani, Hana Ursic, Brigita Rozic, Zdravko Kutnjak

On-Site Speaker (Planned)

Zdravko Kutnjak

Abstract Scope

Harnessing mechanical and thermal energy through piezoelectric and pyroelectric catalysis has emerged as an effective strategy for producing hydrogen and reducing dependence on carbon-based fuels. [1]. Recent advances in piezoelectric and pyroelectric catalysis induced by mechanical and thermal excitations, respectively, towards hydrogen generation via the water-splitting process will be presented in this contribution. We demonstrate an efficient piezo- and pyrocatalytic hydrogen evolution reaction and rhodamine B degradation using ferroelectric BaTiO3-based nanoparticles and potassium niobate nanoplatelets [2,3]. The excellent degradation efficiency, the kinetic rate constant, and the piezo- and pyrocatalytic stability demonstrate the significant potential of these materials for environmental remediation applications. The impact of heterovalent ion substitution in improving catalytic degradation properties will be discussed [2]. [1] S. Touili et al., Int. J. Hydrogen Energy 78, 218 (2024). [2] S. Touili et al., Ceram. Int. 50, 29437 (2024). [3] S. Touili et al., submitted to Int. J. Hydrogen Energy [2025].

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