The need for energy‐efficient and environmentally friendly refrigeration, heat pumping, air
conditioning, and thermal energy harvesting systems is currently more urgent than ever …

This perspective provides an overview of the state of research and innovation in the areas of
magnetocaloric and pyromagnetic materials, and electrocaloric and pyroelectric materials …

Piezoelectric energy harvesting captures mechanical energy from a number of sources,
such as vibrations, the movement of objects and bodies, impact events, and fluid flow to …

In this study, we present the crystal structure, magnetic properties, and cryogenic magneto-
caloric effect (MCE) of RE 2 FeAlO 6 (RE= Gd, Dy, Ho) oxides. The XRD refinement analysis …

Electrocaloric effect driven by electric fields displays great potential in realizing highly
efficient solid-state refrigeration. Nevertheless, most known electrocaloric materials exhibit …

Electrocaloric materials are promising working bodies for caloric-based technologies,
suggested as an efficient alternative to the vapor compression systems. However, their …

Achieving a colossal room‐temperature electrocaloric effect is essential for practical solid‐
state refrigeration applications with low‐cost and high‐efficiency. Here, through the design …

This paper investigated the effect of A-site doping K+ on the structural, morphological, and
magnetic properties of La 0.8 Sr 0.2 Mn 0.95 Ni 0.05 O 3. La 0.8-x K x Sr 0.2 Mn 0.95 Ni 0.05 …

Electrocaloric (EC) refrigeration is a new type of solid-state refrigeration technology based
on the electrocaloric effect (ECE), which has the advantages of environmental protection …

Magnetic refrigeration (MR) technology possesses the potential to substitute conventional
gas compression technology. It is necessary to find MR materials suitable for a variety of …