posted on 2024-10-11, 14:38authored byQi Zhang, Lixia Ren, Yifei Wang, Yingyi Tian, Shuanhu Wang, Kexin Jin, Peng Zhai, Lu Zhang, Ren Ren, Jingjing Xin, Hua Yu, Shengzhong Frank Liu
Organic–inorganic halide perovskite (OIHP) spintronics
has
become a promising research field, as it provides a new precisely
manipulable degree of freedom. Recently, by utilizing the spin Seebeck
effect and inverse spin-Hall effect measurements, we have discovered
substantial magnon injection and transport in Pt/OIHP/Y3Fe5O12 nonlocalized structure. In theory, hyperfine
interaction (HFI) is considered to have an important role in the magnon
transport of OIHP, but there is no clear experimental evidence reported
so far. We report increased spin Seebeck coefficient and lengthened
magnon diffusion length in deuterated- (D-) OIHP films that have weaker
HFI strength compared with protonated- (H-) OIHP. Consequently, D-MAPbBr3 film, as a non-ferromagnetic spacer, achieves long magnon
diffusion length at room temperature (close to 120.3 nm). Our finding
provides valuable insights into understanding magnon transport in
OIHP films and paves the way for the use of OIHPs in multifunctional
applications.