Oxygen-Vacancy-Induced Electronic Structure Modulation in ZnTiO3 Perovskite: A Combined DFT and SCAPS-1D Study Toward Photovoltaic Applications
Angel Tenezaca, Ximena Jaramillo-Fierro

TL;DR
This study explores how oxygen vacancies can modify the electronic structure of ZnTiO3 perovskite to improve its potential for solar energy conversion.
Contribution
The paper introduces oxygen-vacancy engineering in ZnTiO3 to narrow its bandgap and assess its photovoltaic performance using DFT and SCAPS-1D simulations.
Findings
Oxygen vacancies reduce the bandgap of ZnTiO3 from ~2.96 eV to ~1.47 eV.
Simulated single-layer devices achieve a maximum efficiency of ~7.65%.
Multilayer configurations could reach up to 19.25% efficiency under ideal conditions.
Abstract
Zinc titanate (ZnTiO3) is a chemically stable and non-toxic oxide perovskite whose photovoltaic potential remains largely unexplored due to its wide indirect bandgap. This study evaluates whether oxygen-vacancy (F-center) engineering can tailor its electronic structure and improve its suitability as a photovoltaic absorber. Density Functional Theory (DFT) calculations using VASP (PAW − GGA/PBE + U) were performed to evaluate structural stability, electronic properties, and electron affinity, while optical absorption was modeled through a combined Tauc–Gaussian approach. Device performance was assessed via SCAPS-1D simulations in an FTO/ZnO/ZnTiO3/Spiro-OMeTAD architecture. Oxygen vacancies induce bandgap narrowing from ~2.96 eV to ~1.47 eV and generate Ti-3d-dominated donor-like and deep intragap states. The calculated electron affinity is ~3.77 eV. Simulated single-layer devices reach…
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Taxonomy
TopicsZnO doping and properties · TiO2 Photocatalysis and Solar Cells · Electronic and Structural Properties of Oxides
