Elastocaloric effect in zinc oxide nanowire

In this work, zinc oxide (ZnO) nanowire is proposed for elastocaloric application which has been overlooked until now. The elastocaloric effect (eCE) is calculated by Maxwell relation. The large elastocaloric temperature and entropy change evaluated as 17 K and 28 J/kgK, respectively, at 300 K correspond to the stress of 12 GPa or strain of 5.5% by the simulation data. The elastocaloric temperature can be increased to 22 K under the operating tempering of 600 K. However, eCE estimated from the experimental data is found as 2.6 K at 300 K, which corresponds to stress of 6 GPa. These results are expected to significantly expand the knowledge of ZnO nanomaterials as a potential candidate for eCE. The results are based on the indirect approximation; hence, a direct measurement is needed to verify the obtained results.

Automated summary

This work proposes the use of zinc oxide (ZnO) nanowire for elastocaloric applications, with simulated data showing significant elastocaloric temperature and entropy changes at 300K. Experimental data suggests ZnO nanomaterials could be a potential candidate for eCE.