Magneto-thermal conductivity effect and enhanced thermoelectric figure of merit in Ag2Te

Abstract: In this study, we report a large magneto-thermal conductivity effect, potentially usable in heat flow switches and thermoelectric devices, in Ag2Te over a wide temperature range, including room temperature. When a magnetic field of μ0 H = 9 T is applied to Ag2Te at 300 K along the direction perpendicular to the heat and electric currents, the thermal conductivity κ decreases by a remarkable 61%. This effect is mainly caused by the suppressed electronic thermal conductivity in association with a significant mag… Show more

“…To the best of our knowledge, only a few reports exist of magneto-suppressed k in semiconductors. [43][44][45] Furthermore, such phenomena have not been observed in any other clathrate material to date. Typically, the change in k e due to magnetoresistance results in magneto-suppressed k in semimetals and narrow-gap semiconductors.…”

“…Typically, the change in k e due to magnetoresistance results in magneto-suppressed k in semimetals and narrow-gap semiconductors. 44,46…”

Dilute but significant: low cation concentration affects field dependent properties of Eu₂Ga₁₁Sn₃₅

“…To the best of our knowledge, only a few reports exist of magneto-suppressed k in semiconductors. [43][44][45] Furthermore, such phenomena have not been observed in any other clathrate material to date. Typically, the change in k e due to magnetoresistance results in magneto-suppressed k in semimetals and narrow-gap semiconductors.…”

“…Typically, the change in k e due to magnetoresistance results in magneto-suppressed k in semimetals and narrow-gap semiconductors. 44,46…”

Dilute but significant: low cation concentration affects field dependent properties of Eu₂Ga₁₁Sn₃₅

Blended ferron solitary wave emerging from electron–phonon–magnon interaction in magnetic clusters: Ferrons vs skyrmions

Magnetic-field-enhanced high thermoelectric performance in narrow-band-gap polycrystalline semiconductor Ag2+δTe