The 70th JSAP Spring Meeting 2023

Presentation information

Oral presentation

10 Spintronics and Magnetics » 10.1 Emerging materials in spintronics and magnetics (including fabrication and characterization methodologies)

[17p-D704-1~16] 10.1 Emerging materials in spintronics and magnetics (including fabrication and characterization methodologies)

Fri. Mar 17, 2023 1:30 PM - 6:15 PM D704 (Building No. 11)

Hiroshi Naganuma(Tohoku Univ.), Kohei Hamaya(Osaka Univ.), Itoh Keita(東北大)

2:15 PM - 2:30 PM

[17p-D704-3] CoFeVSb: A Promising Spintronic and Thermoelectric Material

〇(D)Jadupati Nag1,2, Yukimi Nishioka2, Yasumasa Takagi3, Akira Yasui3, Aftab Alam1, K. G. Suresh1, Akio Kimura2 (1.IIT Bombay, 2.Hiroshima Univ., 3.JASRI)

Keywords:Spin-valve, Thermoelectric material, Photoemission

We present a combined theoretical and experimental study of a novel quaternary Heusler system CoFeVSb from the viewpoint of room temperature spintronics and thermoelectric applications. This alloy has a large room-temperature power factor (~ 0.62 mWatt/m/K2) and ultralow simulated lattice thermal conductivity (~ 0.4 W/m/K), making it a promising candidate for thermoelectric application. Resistivity measurements indicate half-metallic/semi-metallic nature. Double hysteresis loop along with asymmetry in the magnetoresistance (MR) data reveals room temperature spin-valve feature, which remains stable even at 300 K. Hard X-ray photoemission spectroscopy (HAXPES) data also validates the semimetallic-like density of states (DoS), which further supports the theoretical findings. The coexistence of so many promising features in a single system is rare, and hence CoFeVSb gives a fertile platform to explore numerous applications in the future.