High-throughput Screening of Ferrimagnetic Semiconductors With Ultrahigh Neel Temperature
Abstract
Ferrimagnetic semiconductors, integrated with net magnetization, antiferromagnetic coupling and semi-conductivity, have constructed an ideal platform for spintronics. For practical applications, achieving high Neel temperatures (TN) is very desirable, but remains a significant challenge. Here, via high-throughput density-functional-theory calculations, we identify 19 intrinsic ferrimagnetic semiconductor candidates from nearly 44,000 structures in the Materials Project database, including 10 ferrimagnetic bipolar magnetic semiconductors (BMS) and 9 ferrimagnetic half semiconductors (HSC). Notably, the BMS NaFe5O8 possesses a high TN of 768 K. By element substitutions, we obtain an HSC NaFe5S8 with a TN of 957 K and a BMS LiFe5O8 with a TN reaching 1059 K. Our results pave a promising avenue toward the development of ferrimagnetic spintronics at ambient temperature.
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