Jong Hyeok Seo scite author profile

The preparation of metal oxides on a conductive substrate has been an important issue for improving photoelectrochemical water splitting efficiency. In this work, a facile synthetic process is reported for single-crystalline WO3 microplates with variable thicknesses grown directly on a fluorine-doped tin oxide substrate followed by an annealing procedure. The WO3 microplate electrode showed an improved photocurrent under 1 sun irradiation (1.9 mA/cm2 at 0.6 V vs Ag/AgCl, 100 mW/cm2) for water oxidation, including a significant enhancement in the visible light region compared to either a nanoparticle or a bulk film electrode. The enhanced water oxidation activity originates from both the single crystallinity with an optimum thickness and the oxygen-deficient characteristic of the WO3 microplates. To improve the photochemical stability, FeOOH electrocatalysts were deposited on the surfaces of the WO3 microplates. The resulting WO3/FeOOH composite electrode showed enhanced stability for water oxidation reactions.

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Effective Formation of WO₃ Nanoparticle/Bi₂S₃ Nanowire Composite for Improved Photoelectrochemical Performance

Park

Seo

Kim

et al. 2018

J. Phys. Chem. C

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A well-defined WO 3 /Bi 2 S 3 composite comprised of single-crystalline Bi 2 S 3 nanowire (Bi 2 S 3 NW) layers on top of the WO 3 nanoparticles (WO 3 NP) was synthesized via an in situ hydrothermal reaction. The single-crystalline Bi 2 S 3 nanowires were uniformly grown on the surface of the WO 3 nanoparticle layer. This in situ hydrothermal process is also a general route for the synthesis of well-aligned Bi 2 S 3 nanowires on various metal oxide substrates, such as TiO 2 , BiVO 4 , and ZnO. Compared to the sole Bi 2 S 3 electrode, the resulting WO 3 NP/Bi 2 S 3 NW composite showed enhanced photoelectrochemical activity. The origin of this enhanced activity is mainly attributed to the enhancement of charge separation on the Bi 2 S 3 layer, due to the effective photogenerated electron transfer from the Bi 2 S 3 conduction band to that of WO 3 . Furthermore, the single-crystalline longitudinal structure of the Bi 2 S 3 nanowires can provide a direct electrical pathway through a single domain of nanowires.

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Ultrasonic-assisted preparation of a pinhole-free BiVO₄ photoanode for enhanced photoelectrochemical water oxidation

Park

Seo

et al. 2018

Chem. Commun.

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Spontaneous phase transition of hexagonal wurtzite CoO: application to electrochemical and photoelectrochemical water splitting

Jang

Park

et al. 2017

Chem. Commun.

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Jong Hyeok Seo

Enhanced Visible Light Activity of Single-Crystalline WO₃ Microplates for Photoelectrochemical Water Oxidation

Effective Formation of WO₃ Nanoparticle/Bi₂S₃ Nanowire Composite for Improved Photoelectrochemical Performance

Ultrasonic-assisted preparation of a pinhole-free BiVO₄ photoanode for enhanced photoelectrochemical water oxidation

Spontaneous phase transition of hexagonal wurtzite CoO: application to electrochemical and photoelectrochemical water splitting

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Jong Hyeok Seo

Enhanced Visible Light Activity of Single-Crystalline WO3 Microplates for Photoelectrochemical Water Oxidation

Effective Formation of WO3 Nanoparticle/Bi2S3 Nanowire Composite for Improved Photoelectrochemical Performance

Ultrasonic-assisted preparation of a pinhole-free BiVO4 photoanode for enhanced photoelectrochemical water oxidation

Spontaneous phase transition of hexagonal wurtzite CoO: application to electrochemical and photoelectrochemical water splitting

Contact Info

Product

Resources

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Enhanced Visible Light Activity of Single-Crystalline WO₃ Microplates for Photoelectrochemical Water Oxidation

Effective Formation of WO₃ Nanoparticle/Bi₂S₃ Nanowire Composite for Improved Photoelectrochemical Performance

Ultrasonic-assisted preparation of a pinhole-free BiVO₄ photoanode for enhanced photoelectrochemical water oxidation