\begin{document}$t_{2{\mathrm{g}}}^6c_{\mathrm{g}}^1 $\end{document} configuration is observed. Considering the highly tunable electronic orbital configuration of ReNiO3 related to the NiO6 octahedron, co-occupying the A-site of perovskite structure with Nd and Sm elements regulates the transition temperature (TMIT) for ReNiO3 in a broad temperature range. Furthermore, we demonstrate the anisotropy in the electronic phase transitions for Nd1–xSmxNiO3, in which case the TMIT achieved in the Nd1–xSmxNiO3/LaAlO3 (111) heterostructure exceeds the one deposited on the (001)-oriented LaAlO3 substrate. The presently observed anisotropy in the electrical transportation for Nd1–xSmxNiO3 film material is related to the anisotropic in-plane NiO6 octahedron configuration triggered by differently oriented LaAlO3 substrates. The present work is expected to introduce a new degree of freedom to regulate the electronic phase transition, explore new electronic phase in ReNiO3 material system, and pave the way for growing atomic-level flat ReNiO3 film materials with expected electronic phase transition functions."> - 必威体育下载

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Zhou Xuan-Chi, Jiao Yong-Jie
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  • Abstract views:188
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  • Received Date:28 April 2024
  • Accepted Date:29 August 2024
  • Available Online:05 September 2024

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