AI Article Synopsis
- The crystal structure of solids influences their properties and is usually constrained by their composition and the phase diagram due to thermodynamic limitations.
- Researchers have successfully controlled the crystal structures of palladium-ruthenium nanoparticles (PdRu NPs) without altering their composition or size, producing either face-centered cubic (fcc) or hexagonal close-packed (hcp) structures.
- The hcp-PdRu NPs demonstrate superior catalytic performance for the oxygen evolution reaction (OER) compared to fcc-PdRu NPs, requiring lower overpotential and maintaining activity over extended periods, attributed to their stability against oxidative dissolution.
Article Abstract
The crystal structure, which intrinsically affects the properties of solids, is determined by the constituent elements and composition of solids. Therefore, it cannot be easily controlled beyond the phase diagram because of thermodynamic limitations. Here, we demonstrate the first example of controlling the crystal structures of a solid-solution nanoparticle (NP) entirely without changing its composition and size. We synthesized face-centered cubic (fcc) or hexagonal close-packed (hcp) structured Pd Ru NPs ( = 0.4, 0.5, and 0.6), although they cannot be synthesized as bulk materials. Crystal-structure control greatly improves the catalytic properties; that is, the hcp-Pd Ru NPs exceed their fcc counterparts toward the oxygen evolution reaction (OER) in corrosive acid. These NPs only require an overpotential (η) of 200 mV at 10 mA cm, can maintain the activity for more than 20 h, greatly outperforming the fcc-PdRu NPs (η = 280 mV, 9 min), and are among the most efficient OER catalysts reported. Synchrotron X-ray-based spectroscopy, atomic-resolution electron microscopy, and density functional theory (DFT) calculations suggest that the enhanced OER performance of hcp-PdRu originates from the high stability against oxidative dissolution.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9888636 | PMC |
| http://dx.doi.org/10.1021/acsmaterialsau.1c00048 | DOI Listing |
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