Pei-Han Sun scite author profile

Recent experiments have found that in contrast to the nonsuperconducting bulk RNiO2 (R = Nd, La, and Pr), the strontium-doped R 1 – x Sr x NiO 2 thin films show superconductivity with the critical temperature T c of 9–15 K at x = 0.2, whose origin of superconductivity deserves further investigation. Based on first-principles calculations, we study the electronic structure, lattice dynamics, and electron–phonon coupling (EPC) of the undoped and doped RNiO2 (R = Nd, La, and Pr) at the experimental doping level. Our results show that the EPC-derived T c’s are all about 0 K in the undoped and doped RNiO2. The electron–phonon coupling strength is too small to account for the observed superconductivity. We hence propose that the electron–phonon interaction can not be the exclusive origin of the superconductivity in RNiO2 (R = Nd, La, and Pr).

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First-principles study on the magnetic and electronic properties of the high-pressure orthorhombic phase of MnSe

Man

Gong

Sun

et al. 2022

Phys. Rev. B

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Tetragonal SnOFeSe: A possible parent compound of the FeSe-based superconductor

et al. 2023

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Pei-Han Sun

First-principles study of the superconductivity in LaO

First-Principles Study of Hole-Doped Superconductors RNiO₂ (R = Nd, La, and Pr)

First-principles study on the magnetic and electronic properties of the high-pressure orthorhombic phase of MnSe

Tetragonal SnOFeSe: A possible parent compound of the FeSe-based superconductor

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Pei-Han Sun

First-principles study of the superconductivity in LaO

First-Principles Study of Hole-Doped Superconductors RNiO2 (R = Nd, La, and Pr)

First-principles study on the magnetic and electronic properties of the high-pressure orthorhombic phase of MnSe

Tetragonal SnOFeSe: A possible parent compound of the FeSe-based superconductor

Contact Info

Product

Resources

About

First-Principles Study of Hole-Doped Superconductors RNiO₂ (R = Nd, La, and Pr)