Evolution of the superconductivity in pressurized La3-xSmxNi2O7

Abstract

Motivated by the discovery of superconductivity in bilayer La3Ni2O7 at 80 K and the increased superconducting transition temperature, Tc, up to 92 K in single crystals of La2SmNi2O7 under pressure, we systematically study the effect of Sm doping on the superconductivity and structure of La3-xSmxNi2O7 (0 ≤ x ≤ 1.5) under pressure. Experimental investigations in polycrystalline samples reveal that Sm doping monotonically decreases the lattice constants c and a, thereby enhancing crystal structure distortion and leading to an evolution of the metallic ground state in La3Ni2O7 to an insulating state in La1.5Sm1.5Ni2O7. The maximum onset Tc in compounds x=0.9 and 1.5 is 89 K, while the pressure that drives the emergence of superconductivity is higher for higher doping levels. The results suggest that the enhancement of Tc in La3-xSmxNi2O7 is mainly affected by the compressed c lattice before saturation, and the structure transition is critical for the emergence of superconductivity. Our experimental results provide insight into the influence of elemental substitution on nickelate superconductors, offering a means to increase the transition temperature further.

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