Download This PaperHierarchical Bi2wo6 Embedded Nanoporous Thin Films as Photoanodes for Pec Water Splitting
19 Pages Posted: 28 Jan 2025
Abstract
To reach climate goals and reduce global warming, a critical challenge is to decarbonize the energy network and switch to renewable energy sources. However, the intermittent nature of renewable energy raises the need for sustainable methods to store large amounts of renewable energy. Photoelectrochemical (PEC) water splitting offers a promising solution to convert and store renewable energy as hydrogen. This work focuses on a nanoporous Bi₂WO₆ thin film as a stable, large bandgap protective photoanode for PEC water splitting. We synthesized Bi₂WO₆ microspheres and nanoflakes using a well-established hydrothermal method and produced nanoporous Bi₂WO₆ thin films using a citrato-complex aqueous solution-gel method. These films were modified by embedding them with Bi₂WO₆ microspheres or nanoflakes. Photoelectrochemical characterization shows comparable performance for all thin film types, with an onset potential of 0.2 V vs. RHE, a current density of 0.31 mA/cm² at 1.23 V vs. RHE under 1.5 sun illumination, and stable operation for 1 hour. This performance is competitive with or superior to existing literature for nanoporous Bi₂WO₆ thin films. This paper demonstrates that the citrato-complex aqueous solution-gel method is a viable approach for fabricating high-quality nanoporous Bi₂WO₆ thin films for PEC applications, enhancing particle integration and surface attachment.
Keywords: Photoelectrochemical water splitting, Bi2WO6, Photoanode, Hydrogen, Citrato-complex, thin film
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