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Article Abstract
The vast compositional space of Prussian blue analogues (PBAs), formula AM[M'(CN)]·HO, allows for a diverse range of functionality. Yet, the interplay between composition and physical properties-e.g., flexibility and propensity for phase transitions-is still largely unknown, despite its fundamental and industrial relevance. Here we use variable-pressure X-ray and neutron diffraction to explore how key structural features, i.e., defects, hydration, and composition, influence the compressibility and phase behavior of PBAs. Defects enhance the flexibility, manifesting as a remarkably low bulk modulus ( ≈ 6 GPa) for defective PBAs. Interstitial water increases and enables a pressure-induced phase transition in defective systems. Conversely, hydration does not alter the compressibility of stoichiometric MnPt(CN), but changes the high-pressure phase transitions, suggesting an interplay between low-energy distortions. AMnCo(CN) (A = Rb, Cs) transition from 4̅3 to 4̅2 upon compression due to octahedral tilting, and the critical pressure can be tuned by the A-site cation. At 1 GPa, the symmetry of RbMn[Co(CN)] is further lowered to the polar space group by an improper ferroelectric mechanism. These fundamental insights aim to facilitate the rational design of PBAs for applications within a wide range of fields.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8028041 | PMC |
| http://dx.doi.org/10.1021/jacs.0c13181 | DOI Listing |
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