Publication: Elastocaloric heat pump with specific cooling power of 20.9 W g⁻¹ exploiting snap-through instability and strain-induced crystallization | Institute of Experimental Physics
Towards practical elastocaloric cooling | Communications Engineering
The active caloric regeneration process and the related thermodynamic... | Download Scientific Diagram
Electrocaloric cooling – making a difference - CIBSE Journal
Elastocalorics - Laboratory for refrigeration and district energy
PDF] Elastocaloric Cooling: State-of-the-art and Future Challenges in Designing Regenerative Elastocaloric Devices | Semantic Scholar
High-performance cooling and heat pumping based on fatigue-resistant elastocaloric effect in compression - ScienceDirect
How highly efficient power electronics transfers high electrocaloric material performance to heat pump systems | MRS Advances
The evolution of magnetocaloric heat-pump devices | MRS Bulletin | Cambridge Core
Full article: Accurate prediction of work and coefficient of performance of elastocaloric materials with phase transformation kinetics
RISE's Top Notch Lab: A Key to Elastocaloric Heat Pump Research
Functional schematic of an active elastocaloric heat pipe (AEH). a AEH... | Download Scientific Diagram
Elastocaloric Continuous Heating and Cooling Unit - YouTube
Elastocaloric systems - Fraunhofer IPM
A regenerative elastocaloric heat pump | Nature Energy
Overcoming fatigue through compression for advanced elastocaloric cooling | MRS Bulletin | Cambridge Core
Elastocaloric heat pump with specific cooling power of 20.9 W g–1 exploiting snap-through instability and strain-induced crystallization | Nature Energy
High-performance cooling and heat pumping based on fatigue-resistant elastocaloric effect in compression - ScienceDirect
A regenerative elastocaloric heat pump | Nature Energy