Jorge Salgado-Beceiro scite author profile

In this work, “breathing-caloric” effect is introduced as a new term to define very large thermal changes that arise from the combination of structural changes and gas adsorption processes occurring during breathing transitions. In regard to cooling and heating applications, this innovative caloric effect appears under very low working pressures and in a wide operating temperature range. This phenomenon, whose origin is analyzed in depth, is observed and reported here for the first time in the porous hybrid organic–inorganic MIL-53(Al) material. This MOF compound exhibits colossal thermal changes of Δ S ∼ 311 J K –1 kg –1 and Δ H ∼ 93 kJ kg –1 at room temperature (298 K) and under only 16 bar, pressure which is similar to that of common gas refrigerants at the same operating temperature (for instance, p (CO 2 ) ∼ 64 bar and p (R134a) ∼ 6 bar) and noticeably lower than p > 1000 bar of most solid barocaloric materials. Furthermore, MIL-53(Al) can operate in a very wide temperature range from 333 K down to 254 K, matching the operating requirements of most HVAC systems. Therefore, these findings offer new eco-friendly alternatives to the current refrigeration systems that can be easily adapted to existing technologies and open the door to the innovation of future cooling systems yet to be developed.

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Near-room-temperature reversible giant barocaloric effects in [(CH₃)₄N]Mn[N₃]₃ hybrid perovskite

Salgado-Beceiro

Nonato

Silva

et al. 2020

Mater. Adv.

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Multifunctional properties and multi-energy storage in the [(CH₃)₃S][FeCl₄] plastic crystal

et al. 2020

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