摘要
Ferromagnetic-structural transformation has been studied widely in MnCoGe-based materials. However, the magnetostructural transition(MST) from antiferromagnetic(AFM) orthorhombic phase to ferromagnetic(FM) hexagonal phase, which may lead to a large inverse magnetocaloric effect(MCE), has rarely been reported. Here, the introduction of Mn vacancy lowers the structural transition temperature while retains the AFM state in the orthorhombic phase, thus successfully realizing the AFM-FM MST in Mn0.95Co0.75Cu0.25Ge. Moreover, successive inverse and normal MCEs are observed around the first-order AFM-FM MST and the second-order FM-paramagnetic(PM) transition, respectively. A thermostat is proposed based on this special feature, which could release heat above the critical temperature while absorb heat below the critical temperature by simply applying the same magnetization/demagnetization cycles. This thermostat can be very useful in many applications where a constant temperature is required, such as cryostats and incubators.
基金
supported by the National Key Research and Development Program of China (Grant No. 2017YFB0702704)
the National Natural Science Foundation of China (Grant Nos. 51671022, and 51701130)
the State Key Lab of Advanced Metals and Materials (Grant No. 2019-Z11)
the Scientific and Technological Innovation Team Program of Foshan (Grant No. 2015IT100044)
the Fundamental Research Funds for the Central Universities (Grant No. FRF-TP-18-014B1)
