Doping neopentyl glycol with 1 mol% pentaerythritol reduces supercooling and thermal hysteresis in its barocaloric phase transition by increasing the number of nucleation events.
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Adiabatic temperature change in Mn1.3Fe0.7P0.5Si0.55 is field-sweep-rate independent due to paramagnetic moment alignment overlapping the first-order transition, which remains incomplete up to 20 T and shows field-dependent hysteresis in pulsed fields.
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Investigating nucleation-driven phase transitions in neopentyl molecular crystals using infrared thermography and polarised light microscopy
Doping neopentyl glycol with 1 mol% pentaerythritol reduces supercooling and thermal hysteresis in its barocaloric phase transition by increasing the number of nucleation events.
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Dynamics of the magnetoelastic phase transition and adiabatic temperature change in Mn1.3Fe0.7P0.5Si0.55
Adiabatic temperature change in Mn1.3Fe0.7P0.5Si0.55 is field-sweep-rate independent due to paramagnetic moment alignment overlapping the first-order transition, which remains incomplete up to 20 T and shows field-dependent hysteresis in pulsed fields.