In this section
@article{Eslava:2026,
author = {Eslava, S},
journal = {Materials Advances},
title = {Solution-processed La-substituted BaBiO photocathodes with enhanced photoelectrochemical activity: a combined experimental and computational study},
year = {2026}
}
TY - JOUR
AB - In the search for solution-processed p-type semiconductors for photocathodic hydrogen evolution, we have developed a spin-coating method for fabricating the double perovskite Ba2Bi2O6 using polyvinylpyrrolidone as a polymer template and a sol-gel mixture of barium and bismuth acetates. This method produces films with high porosity and well-defined grain boundaries, enlarging semiconductor/electrolyte interfacial area. Photocurrent responses are activated by 20% atomic substitution of Bi by La in Ba2Bi2O6 (i.e. Ba2Bi1.6La0.4O6), achieving a photocurrent density of -0.85 mA cm-2 at +0.68 VRHE under simulated sunlight conditions. However, this high photocurrent is not accompanied by hydrogen evolution and is attributed instead to the reduction of bismuth through its oxidation states. Tauc plot analyses of incident photon-to-current efficiencies reveal a bandgap reduction from 2.70 to 2.53 eV with an optimal amount of La substitution, supporting the observed improvement in light absorption and photocurrent. Mott-Schottky plots show a clear slope for Ba2Bi1.6La0.4O6, while Ba2Bi2O6 exhibited a flat response, indicating poor conductivity in Ba2Bi2O6 that was only activated by La substitution. Williamson-Hall analysis of X-ray diffraction reveals that La substitution doubles the microstrain, while scanning transmission electron microscopy confirms the uniform elemental composition and excellent crystallinity of the La-substituted films. Computational analysis supports the experimental results, showing that La substitution increases the lattice parameters, induces microstrain, and reduces the bandgap. These findings demonstrate a solution-based approach for preparing Ba2Bi2O6 double perovskite photocathodes and show how La substitution enhances photocurrent performance. They also highlight the remaining challenge of directing these photocurrents toward improved photoelectrochemical hydrogen evolution.
AU - Eslava,S
PY - 2026///
SN - 2633-5409
TI - Solution-processed La-substituted BaBiO photocathodes with enhanced photoelectrochemical activity: a combined experimental and computational study
T2 - Materials Advances
ER -
