Stern Taulats, EnricCastán i Vidal, Maria TeresaMañosa, LluísPlanes Vila, AntoniMathur, Neil D.Moya Raposo, Xavier2019-06-192019-06-192018-04-110883-7694https://hdl.handle.net/2445/135483Multicaloric materials show thermal changes that can be driven simultaneously or sequentially by more than one type of external field, and the resulting multicaloric effects can be large in multiferroic materials. The use of more than one driving field can permit access to larger thermal changes, with smaller field magnitudes, over wider ranges of operating temperature, while manipulating hysteresis. The thermodynamics behind multicaloric effects is well established, but only a small number of multicaloric effects have been experimentally studied to date. Here we describe the fundamentals of multicaloric effects, and discuss the performance of representative multicaloric materials. Exploiting multicaloric effects could aid the future development of cooling devices, where key challenges include energy efficiency and operating temperature span.5 p.application/pdfeng(c) Serbian Chemical Society, 2018Cristalls ferroelèctricsCristal·lografiaPropietats tèrmiquesCiència dels materialsFerroelectric crystalsCrystallographyThermal propertiesMaterials scienceinfo:eu-repo/semantics/article6806512019-06-19info:eu-repo/semantics/openAccess