| Literature DB >> 31385369 |
Araceli Aznar1, Pol Lloveras1,2, Ji-Yeob Kim2, Enric Stern-Taulats2, María Barrio1, Josep Lluís Tamarit1, César F Sánchez-Valdés3, José Luis Sánchez Llamazares4, Neil D Mathur2, Xavier Moya2.
Abstract
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in brittle magnetocaloric materials, which display first-order magnetostructural phase transitions whose large latent heats are traditionally accessed using applied magnetic fields. Here, moderate changes of hydrostatic pressure are used to drive giant and reversible inverse barocaloric effects near room temperature in the notoriously brittle magnetocaloric material MnCoGeB0.03 . The barocaloric effects compare favorably with those observed in barocaloric materials that are magnetic. The inevitable fragmentation provides a large surface for heat exchange with pressure-transmitting media, permitting good access to barocaloric effects in cooling devices.Keywords: barocaloric materials; energy efficient; environmentally friendly cooling
Year: 2019 PMID: 31385369 DOI: 10.1002/adma.201903577
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849