Cross, Russell W., Rondiya, Sachin R. and Dzade, Nelson Y. ORCID: https://orcid.org/0000-0001-7733-9473 2021. First-principles DFT Insights into the adsorption of hydrazine on bimetallic β1-NiZn catalyst: implications for direct hydrazine fuel cells. Applied Surface Science 536 , 147648. 10.1016/j.apsusc.2020.147648 |
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Abstract
We present a systematic first-principles density functional theory study with dispersion corrections (DFT-D3) of hydrazine adsorption on the experimentally observed (111), (110) and (100) surfaces of the binary β1-NiZn alloy. A direct comparison has been drawn between the bimetallic and monometallic Ni and Zn counterparts to understand the synergistic effect of alloy formation. The hydrazine adsorption mechanism has been characterised through adsorption energies, Bader charges, the d-band centre model, and the coordination number of the active site - which is found to dictate the strength of the adsorbate-surface interaction. The bimetallic β1-NiZn nanocatalyst is found to exhibit higher activity towards adsorption and activation of hydrazine compared to the monometallic Ni and Zn counterparts. The Ni-sites of the bimetallic NiZn surfaces are found to be generally more reactive than Zn sites, which is suggested to be due to the higher d-band centre of -0.13 eV (closer to the Fermi level), forming higher energy anti-bonding states through Ni-N interactions. The observed synergistic effects derived from surface composition and electronic structure modification from Ni and Zn alloying should provide new possibilities for the rational design and development of low-cost bimetallic Ni-Zn alloy catalysts for direct hydrazine fuel cell (DHFC) applications.
Item Type: | Article |
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Date Type: | Publication |
Status: | Published |
Schools: | Chemistry Advanced Research Computing @ Cardiff (ARCCA) |
Publisher: | Elsevier |
ISSN: | 0169-4332 |
Funders: | EPSRC and Johnson Matthey |
Date of First Compliant Deposit: | 14 September 2020 |
Date of Acceptance: | 22 August 2020 |
Last Modified: | 06 Jan 2024 02:18 |
URI: | https://orca.cardiff.ac.uk/id/eprint/134819 |
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