Transition Metal Dichalcogenide 1T'-MoTe2 Nanoscale Films as Spin Pumping Platforms
Abstract
Transition metal dichalcogenides (TMDs) have emerged as a promising class of materials for spintronics, with the aim of promoting efficient spin-charge conversion (SCC) in TMD/ferromagnet (FM)-based devices. The MoTe2 semimetal with distorted orthorhombic crystal structure in the 1T' phase has gathered particular attention due to its high spin-orbit coupling and reconfigurability as a type-II Weyl semimetal close to room temperature. Here, we report on the role of chemically grown 1T'-MoTe2 thin films in inducing SCC in 1T'-MoTe2/FM heterostructures as measured at room temperature. Ferromagnetic resonance (FMR) and electrically detected spin-pumping FMR measurements performed on 1T'-MoTe2/Co/Au and 1T'-MoTe2/Au/Co/Au heterostructures reveal a spin-mixing conductance value of up to 1.6 × 1020~m-2 and a spin Hall angle of 1.7\%. These findings position MoTe2 thin films as a competitive spin-charge conversion option compared to other functional materials (e.g., heavy metals, topological insulators), highlighting their potential for future applications in spintronic devices.
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