April 22 - 26, 2024
Seattle, Washington
May 7 - 9, 2024 (Virtual)
Symposium Supporters
2024 MRS Spring Meeting & Exhibit
SF01.08.02

Enhanced Electrical Conductivity caused by Phase Transformation and Interfacial Segregation in an Entropy Stabilized Oxide

When and Where

Apr 24, 2024
4:00pm - 4:15pm
Terrace Suite 1, Level 4, Summit

Presenter(s)

Co-Author(s)

Huiming Guo1,Hasti Vahidi1,Alexander Dupuy1,Benjamin Lam1,Justin Cortez1,Pulkit Garg1,Timothy Rupert1,Julie Schoenung1,William Bowman1

University of California, Irvine1

Abstract

Huiming Guo1,Hasti Vahidi1,Alexander Dupuy1,Benjamin Lam1,Justin Cortez1,Pulkit Garg1,Timothy Rupert1,Julie Schoenung1,William Bowman1

University of California, Irvine1
Research on entropy stabilized oxides (ESOs) has primarily focused on exploring new structures, chemistries, dislocations [1], or unique properties. However, few studies discuss the impact of secondary phases on functionality. Here, electrical transport mechanisms in the canonical ESO (Co,Cu,Mg,Ni,Zn)O were assessed as a function of secondary phase content [2]. When single-phase, the oxide is a small polaron electronic conductor. After heat treatments, Cu-rich tenorite particles form at grain boundaries, which enhances the grain interior rocksalt oxide electronic conductivity due to increased Cu cation vacancies and compensating small hole polarons. While Cu depletion tailors grain interior the conduction mechanism, Cu-rich tenorite grain boundary phases create a pathway for Cu<sup>2+</sup>/Cu<sup>3+</sup> small hole polarons after longer heat treatment times. The ability to selectively grow secondary phases nucleated at grain boundaries enables tuning of electrical properties in entropy-stabilized and complex concentrated oxides using microstructure design, nanoscale engineering, and heat treatment, paving the way to develop many novel materials.<br/> <br/>[1] Xin Wang, Justin Cortez, Alexander Dupuy, Julie Schoenung, W.J. Bowman (2023) “High entropy oxide (Co,Cu,Mg,Ni,Zn)O exhibits grain size dependent room temperature deformation” <i>Materials Research Letters</i><br/> <br/>[2] Hasti Vahidi, Alexander D. Dupuy, Benjamin X. Lam, Justin Cortez, Pulkit Garg, Timothy J. Rupert, Julie M. Schoenung, and William J. Bowman (In Revision)

Keywords

electrical properties | second phases

Symposium Organizers

Ben Breitung, Karlsruhe Institute of Technology
Alannah Hallas, The University of British Columbia
Scott McCormack, University of California, Davis
T. Zac Ward, Oak Ridge National Laboratory

Session Chairs

Jasmin Aghassi-Hagmann
T. Zac Ward

In this Session