Moniruddin scite author profile

Heterostructure formation is an effective method used for designing photocatalysts that solve problems caused by photoexcited charge recombination phenomena associated with the photocatalytic water redox reaction. This work reports a new Co-metal-incorporated ternary heterostructured photocatalyst, CdS/CoO x /Co-metal, which enhanced charge separation to increase photocatalytic H2 evolution 30.5-fold in comparison to pure CdS under visible light. This work demonstrates for the first time the effect of the Co metal on photocatalytic H2 evolution using the CdS/CoO x /Co-metal ternary heterostructure. In the ternary heterostructure, Co metal and CoO x act as photogenerated electron- and hole-capturing cocatalysts, respectively. Results from photoelectrochemical studies along with photocatalytic H2 evolution data proved the enhancement of charge transfer and separation in the CdS/CoO x /Co-metal heterostructure due to the addition of Co metal and CoO x . Hence, the synergistic charge separation improvement achieved by the combination of CoO x and the Co metal with CdS produced a photocatalytic H2 evolution rate of 9.54 μmol/h, which is the highest reported H2 evolution rate for a CdS-based system under l sun solar irradiance (>420 nm) to the best of our knowledge.

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Hierarchically 3D assembled strontium titanate nanomaterials for water splitting application

Moniruddin

Afroz

Shabdan

et al. 2017

Applied Surface Science

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Designing of WO₃@Co₃O₄ Heterostructures to Enhance Photoelectrochemical Performances

et al. 2019

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Heterostructured photocatalysts are superior to single photocatalysts because they offer better charge separation and broaden light harnessing abilities. Although WO3 is considered an oxygen-evolving photocatalyst with decent stability and proper band gap, its lower photocatalytic efficiency is ascribed to high charge recombination. In this research, a WO3@Co3O4 heterostructure reduced the recombination of photocatalytic charges and extended light absorption abilities, resulting in improved photocatalytic activity. The presence of Co3O4 nanoparticles improved light absorption and charge transfer of tungsten oxide films for photoelectrochemical reactions. For photoelectrochemical water oxidation, WO3@Co3O4 nanostructures generated a photocurrent 20 times higher than that of pure WO3. Both electrodeposition and sol gel techniques were utilized to synthesize the WO3@Co3O4 photoelectrode. Scanning electron microscopy and X-ray diffraction were used to characterize the formation of the above photocatalyst. A photocurrent study was done to investigate the charge separation mechanism to explain the enhanced photocatalytic activity.

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Moniruddin

A heterojunction strategy to improve the visible light sensitive water splitting performance of photocatalytic materials

Recent progress on perovskite materials in photovoltaic and water splitting applications

Designing CdS-Based Ternary Heterostructures Consisting of Co-Metal and CoO_x Cocatalysts for Photocatalytic H₂ Evolution under Visible Light

Hierarchically 3D assembled strontium titanate nanomaterials for water splitting application

Designing of WO₃@Co₃O₄ Heterostructures to Enhance Photoelectrochemical Performances

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Moniruddin

A heterojunction strategy to improve the visible light sensitive water splitting performance of photocatalytic materials

Recent progress on perovskite materials in photovoltaic and water splitting applications

Designing CdS-Based Ternary Heterostructures Consisting of Co-Metal and CoOx Cocatalysts for Photocatalytic H2 Evolution under Visible Light

Hierarchically 3D assembled strontium titanate nanomaterials for water splitting application

Designing of WO3@Co3O4 Heterostructures to Enhance Photoelectrochemical Performances

Contact Info

Product

Resources

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Designing CdS-Based Ternary Heterostructures Consisting of Co-Metal and CoO_x Cocatalysts for Photocatalytic H₂ Evolution under Visible Light

Designing of WO₃@Co₃O₄ Heterostructures to Enhance Photoelectrochemical Performances