Correlation between electronic and magnetic properties of LaMnO 3-δ : experimental study and DFT-MBJ calculation-Reference-Cited by-同舟云学术

Correlation between electronic and magnetic properties of LaMnO 3-δ : experimental study and DFT-MBJ calculation

Published:2024-03-27 Issue: Volume: Page:
ISSN:
Container-title:
language:
Short-container-title:

Author:

Henchiri C.¹,MABROUKI A.²,Zhou Haishan¹,Argoubi Fatma³,Gu Shouxi¹,Qi Qiang¹,Dhahri Esseti²,VALENTE M. A⁴

Affiliation:

1. Chinese Academy of Sciences

2. University of Sfax

3. University of Tunis El Manar

4. I3N, University of Aveiro

Abstract

Abstract Structural, magnetic, magnetocaloric and thermoelectricproperiesLa0.9†0.1MnO2.9 wereexamined in this original paper. Indeed, the structural study demonstrated that this compound crystallized in the rhombohedric system with R-3c space group. The magnetization in terms of temperature corroborated the PM-FM transition when temperature decreased. The fit of hysteresis cycle at 5 K FM showed a domination of the FM contributions. Subsequently a magnetic entropy change deduced from the isothermal magnetization curves was observed in our samples with a peak centered on their Curie temperature (TC). The total electronic density states (TDOS) prove the coexistence of metallic behavior for spin up states and semiconductor characteristic with a Eg = 1.3 eV for spin down states. Thermoelectric properties analysis revealed promising behavior, with ZT reaching 1.1 at 420 K

Publisher

Research Square Platform LLC

Reference46 articles.

1. Structural and magnetic properties of La1-x⎕xMnO3 (x = 0.1; 0.2 and 0.3) manganites;Henchiri C;Applied physics A,2019

2. Structural study and large magnetocaloric entropy change at room temperature of La1-xxMnO3 compound;Henchiri C;RSC Adavances,2020

3. Landau mean-field analysis and estimation of the spontaneous magnetization from magnetic entropy change;Henchiri C;Chemical Pphysics Letters,2021

4. Modeling the Magnetocaloric Effect of La0.8⎕0.2MnO3 by the Mean-Field Theory;Henchiri C;Journal of Superconductivity and Novel Magnetism,2019

5. Magnetostructural Transition and Magnetocaloric Effect with Negligible Magnetic Hysteresis in MnCoGe1.02 – xGax Alloys;Li Gao Ying;Metals,2022