Giant mechanocaloric effect of nanoconfined water near room temperature
ZQ Zhao and MM Xue and H Qiu and WL Guo and ZH Zhang, CELL REPORTS PHYSICAL SCIENCE, 3, 100822 (2022).
DOI: 10.1016/j.xcrp.2022.100822
Using water as a refrigerant for innovative cycle-cooling technology is desirable, since water not only is economically and environmentally unrivaled, but also owns a latent heat that is 16-fold that of commercial halohydrocarbon. However, water-based refrigeration has been limited by a phase transition point far from room temperature and intractable volume change upon vaporization. Here, we use a synergy between nanoconfinement and mechanical pressures in regulating the phase transition of water and report a giant mechanocaloric effect in nanoconfined water by thermodynamic analysis and atomistic calculations. The estimated isothermal entropy changes are as high as 1,066 J kg -1 K-1 and adiabatic temperature changes can reach tens of kelvins near room temperature for water confined in slit nanopores. Practical utility of this effect is supported by the robustly high refrigerant performance of water-filled nano porous carbon matrices. This effect is potentially extendable to other polar liquids and opens new prospects for liquid- state caloric effects.
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