Influence of defects on antidoping behavior in SmNiO3

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Author(s):	Espinosa-Garcia, W. F. ^{[1, 2]} ; Dalpian, G. M. ^[1] Total Authors: 2
Affiliation:	^[1] Univ Fed ABC, Ctr Ciencias Nat & Humanas, Santo Andre, SP - Brazil ^[2] Univ San Buenaventura Medellin, Fac Ingn, Grp Invest Modelamiento & Simulac Computac, Carrera 56C 51-110, Medellin - Colombia Total Affiliations: 2
Document type:	Journal article
Source:	Physical Review B; v. 104, n. 20 NOV 8 2021.
Web of Science Citations:	0
Abstract
Samarium nickelate (SmNiO3) is a representative quantum material, presenting ``exotic{''} properties including strong correlations and metal-to-insulator transition. It was also shown that SmNiO3 presents the unusual antidoping effect, where the resistivity of the material increases with doping instead of decreasing. In this paper, we study intrinsic defects in this compound, and discuss the antidoping behavior in the presence of these defects. Our results show that the negatively charged oxygen vacancy (VO-2) can be very stable, and the extra electrons move towards the small octahedra (Ni4+ sites), similar to the antidoping effect in the pristine material. This indicates that antidoping should still be observed even in the presence of defects. (AU)

FAPESP's process:	19/11230-3 - Doping effects in quantum materials
Grantee:	William Fernando Espinosa García
Support Opportunities:	Scholarships in Brazil - Post-Doctoral