Room-Temperature Electrocaloric Effect in Layered Ferroelectric CuInP₂S₆ for Solid-State Refrigeration

A material with reversible temperature change capability under an external electric field, known as the electrocaloric effect (ECE), has long been considered as a promising solid-state cooling solution. However, electrocaloric (EC) performance of EC materials generally is not sufficiently high for real cooling applications. As a result, exploring EC materials with high performance is of great interest and importance. Here, we report on the ECE of ferroelectric materials with van der Waals layered structure (CuInP₂S₆ or CIPS in this work in particular). Over 60% polarization charge change is observed within a temperature change of only 10 K at Curie temperature. Large adiabatic temperature change (|?T|) of 3.3 K and isothermal entropy change (|?S|) of 5.8 J kg^-1 K^-1 at |?E| = 142.0 kV cm^-1 and at 315 K (above and near room temperature) are achieved, with a large EC strength (|?T|/|?E|) of 29.5 mK cm kV^-1. The ECE of CIPS is also investigated theoretically by numerical simulation, and a further EC performance projection is provided.