Add to ORKGCurrent interest in barocaloric effects has been stimulated by the discovery that these pressure-driven thermal changes can be giant near ferroic phase transitions in materials that display magnetic or electrical order. Here we demonstrate giant inverse barocaloric effects in the solid electrolyte AgI, near its superionic phase transition at ~420 K. Over a wide range of temperatures, hydrostatic pressure changes of 2.5 kbar yield large and reversible barocaloric effects, resulting in large values of refrigerant capacity. Moreover, the peak values of isothermal entropy change (60 J K-1 kg-1 or 0.34 J K-1 cm-3) and adiabatic temperature changes (18 K), which we identify for a starting temperature of 390 K, exceed all values previously recorde...
The first experimental evidence for a giant, conventional barocaloric effect (BCE) associated with a...
Traditional refrigeration technologies based on compression cycles of greenhouse gases pose serious ...
An applied stress field σ3 can reversibly change the temperature of an elastocaloric material under ...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Caloric effects are currently under intense study due to the prospect of environment-friendly coolin...
Caloric effects are currently under intense study due to the prospect of environment-friendly coolin...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
There is currently great interest in replacing the harmful volatile hydrofluorocarbon fluids used in...
Materials with both giant and colossal mechanocaloric effects together with giant electrocaloric and...
peer reviewedAn applied stress field σ3 can reversibly change the temperature of an elastocaloric ma...
The search for materials with large caloric effects has become a major challenge in material science...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
PhD Theses.Barocaloric effects refer to the adiabatic temperature change (ΔT) or isothermal en-tropy...
The first experimental evidence for a giant, conventional barocaloric effect (BCE) associated with a...
Traditional refrigeration technologies based on compression cycles of greenhouse gases pose serious ...
An applied stress field σ3 can reversibly change the temperature of an elastocaloric material under ...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Current interest in barocaloric effects has been stimulated by the discovery that these pressure-dri...
Caloric effects are currently under intense study due to the prospect of environment-friendly coolin...
Caloric effects are currently under intense study due to the prospect of environment-friendly coolin...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
There is currently great interest in replacing the harmful volatile hydrofluorocarbon fluids used in...
Materials with both giant and colossal mechanocaloric effects together with giant electrocaloric and...
peer reviewedAn applied stress field σ3 can reversibly change the temperature of an elastocaloric ma...
The search for materials with large caloric effects has become a major challenge in material science...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
PhD Theses.Barocaloric effects refer to the adiabatic temperature change (ΔT) or isothermal en-tropy...
The first experimental evidence for a giant, conventional barocaloric effect (BCE) associated with a...
Traditional refrigeration technologies based on compression cycles of greenhouse gases pose serious ...
An applied stress field σ3 can reversibly change the temperature of an elastocaloric material under ...