A nonlinear thermodynamic analysis is adopted to study the electrocaloric effect of B a x S r 1 − x Ti O 3 (BST) solid solutions. The results reveal that… Click to show full abstract
A nonlinear thermodynamic analysis is adopted to study the electrocaloric effect of B a x S r 1 − x Ti O 3 (BST) solid solutions. The results reveal that the location of maximum adiabatic temperature change Δ T can be shifted from a high temperature to room temperature via tuning chemical composition x. Comparing the electrocaloric properties of BST with those values reported in other electrocaloric materials, it is found that BST with x = 0.7 shows a large electrocaloric response over a broad temperature range near room temperature and possesses a large electrocaloric strength Δ T / Δ E ∼ 1.978 × 10 − 6 K m/V due to a significant change in polarization with respect to temperature. This suggests that BST with high electrocaloric performance has potential for practical cooling applications.
               
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