December 1 - 6, 2024
Boston, Massachusetts
Symposium Supporters
2024 MRS Fall Meeting & Exhibit
EN01.11.06

Small-Polaron Mediated Recombination in Titanium Dioxide from First Principles

When and Where

Dec 4, 2024
8:00pm - 10:00pm
Hynes, Level 1, Hall A

Presenter(s)

Co-Author(s)

James Quirk1,Keith McKenna2

Newcastle University1,University of York2

Abstract

James Quirk1,Keith McKenna2

Newcastle University1,University of York2
Nonradiative recombination leads to losses in efficiency in optoelectronic devices such as photovoltaic cells and light-emitting diodes. Charges trapped at point defects or self-trapped as a small polaron may act as recombination centers. Using various phases of titanium dioxide as an example, we provide first-principles predictions that small hole polarons in the bulk of the crystal would exhibit significant rates of recombination with electrons in the conduction band.[1] However, small hole polarons trapped at a model grain boundary are predicted to have much higher nonradiative recombination rates, which can be attributed to softer phonon modes in the vicinity of the boundary as well as greater electron-phonon coupling. These findings have ramifications in materials other than titanium dioxide, and we propose strategies to reduce the degree of recombination that would occur at grain boundaries.<br/><br/>[1] JA Quirk, KP McKenna Phys. Rev. Res. 5 (2), 023072

Keywords

electronic structure | electron-phonon interactions

Symposium Organizers

Virgil Andrei,
Rafael Jaramillo, Massachusetts Institute of Technology
Rajiv Prabhakar,
Ludmilla Steier, University of Oxford

Session Chairs

Virgil Andrei
Ludmilla Steier

In this Session