Crystal phase stability and barocaloric efficiency of (NH4)3WO2F5

Bogdanov, E.V., Gorev, M.V., Laptash, N.M., (...), Pogoreltsev, E.I., Flerov, I.N.// Solid State Sciences//

https://doi.org/10.1016/j.solidstatesciences.2024.107703

Calorimetric, dilatometric and pressure studies of (NH4)3WO2F5 were performed over a wide temperature range, including the Pm-3m ↔ Pa-3 phase transition. Comparison of the obtained results with data for related fluorides (NH4)3SnF7 and (NH4)3TiF7 undergoing the same structural changes showed a significant role of chemical pressure in the formation of thermal and barocaloric properties. A decrease in anomalous entropy in oxyfluoride, ΔS0 = 12.2 J/mol·K, is accompanied by a significant increase in sensitivity to hydrostatic pressure, dT0/dp = 93 K/GPa, the preservation of a large change in anomalous deformation δ(ΔV/V)0 = 0.45 % and a small temperature hysteresis, δT0 < 1 K. This combination of thermal characteristics has led to both a significant increase in extensive and intensive barocaloric parameters in the low pressures area, and to their high reversibility in the modes of increasing and decreasing pressure.


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