In Operando Photoswitching of Cu Oxidation States in Cu-Based Plasmonic Heterogeneous Photocatalysis for Efficient H<sub>2</sub> Evolution

Li, Peipei; Dörfler, Andreas; Tabrizi, Afsaneh Asgariyan; Skokan, Lilian; Rawach, Diane; Wang, Peikui; Peng, Zhiyuan; Zhang, Jianming; Ruediger, Andréas; Claverie, Jérôme P.

doi:10.1021/acsami.3c01219

Cited by 5 publications

(2 citation statements)

References 59 publications

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“…The evolved hydrogen and oxygen gas were automatically collected every 15 min and analyzed by gas chromatography (GC) equipped with a special PED detector (Compact-LDP1000 Noble Gases purifier, Quebec, Canada). The H 2 production value was calculated from the peak area (ppm) and carrier gas flow rate after 220 min of reaction so that a steady state was reached. Details for photocatalytic activity measurements for N 2 photoreduction and methylene blue photodegradation can be found in the Supporting Information.…”

Section: Methodsmentioning

confidence: 99%

“…Extensive research into morphology engineering, notably via the tuning of shape and size, − cocatalyst deposition, − and the exposure of high-energy facets , has resulted in the development of highly active photocatalysts. Such intricate morphologies can provide increased surface areas and more active sites, leading to enhanced photocatalytic activities.…”

Section: Introductionmentioning

confidence: 99%

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Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion

Liu,

Hossain,

Wang

et al. 2024

ACS Appl. Nano Mater.

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Significant progress has been achieved in elucidating the relationship between the architecture of heterogeneous photocatalysts and their catalytic activity. Notably, it is recognized that hollow nanospheres exhibit superior catalytic activity compared with their filled nanoparticle counterparts. Yet, the impact of diameter and shell thickness on photocatalytic activity remains unclear. Here, we designed hollow TiO 2 nanospheres with varying thicknesses and diameters. Our study reveals that disparities in catalytic activity, for processes such as H 2 production, N 2 reduction, or dye degradation, defy simple attribution to defects, surface facets, surface area, or variations in exciton lifetimes. Intriguingly, a decrease in catalytic activity was observed with an increase in the external diameter or shell thickness. The absorption and scattering of a single hollow nanosphere increase with particle diameter and shell thickness. However, at a given concentration, nanospheres with lower shell thickness and external diameter are in greater numbers, thus resulting in overall greater absorption and scattering for hollow nanospheres with lower diameter and diameter. We envision that this study will provide a foundation for the rational design of nanomaterials with enhanced photoactivity.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion

Liu,

Hossain,

Wang

et al. 2024

ACS Appl. Nano Mater.

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Hydrogen Boride Sheets and Copper Nanoparticle Composites as a Visible‐Light‐Sensitive Hydrogen Release System

Mauliana,

Yamaguchi,

Kondo

et al. 2024

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Hydrogen boride (HB) sheet is a new class of 2D materials comprising hydrogen and boron, synthesized through ion‐exchange and exfoliation techniques. HB sheets can release hydrogen (H2) under light irradiation and is predicted to be a promising H2 storage material. However, its application is limited to the UV region. One approach to enable a visible‐light‐driven system is the utilization of plasmonic metallic nanoparticles. The present study reports H2 release from copper (Cu) nanoparticle‐modified HB sheet (HB/Cu) under visible‐light irradiation. Copper nanoparticles possess unique and strong plasmonic responses in the visible‐light range, making them ideal light absorbers in this system. HB/Cu nanocomposites are synthesized using a simple mixture of copper acetate and HB sheets in acetonitrile, where HB sheets reduced copper ions to metal copper nanoparticles. The photoirradiation results shows that HB/Cu nanocomposites released more H2 than the bare HB sheets under visible‐light irradiation. This is probably due to the plasmonic photothermal effect of copper metal, which enhances H2 generation from the HB sheets. This material offers a viable and cost‐effective approach for developing visible‐light‐sensitive systems.

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Integration of Plasmonic materials with MOFs/MOF-derived materials for Photocatalysis

Zhang,

Cao,

Wen

et al. 2024

Coordination Chemistry Reviews

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In Operando Photoswitching of Cu Oxidation States in Cu-Based Plasmonic Heterogeneous Photocatalysis for Efficient H₂ Evolution

Cited by 5 publications

References 59 publications

Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion

Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion

Hydrogen Boride Sheets and Copper Nanoparticle Composites as a Visible‐Light‐Sensitive Hydrogen Release System

Integration of Plasmonic materials with MOFs/MOF-derived materials for Photocatalysis

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In Operando Photoswitching of Cu Oxidation States in Cu-Based Plasmonic Heterogeneous Photocatalysis for Efficient H2 Evolution

Cited by 5 publications

References 59 publications

Architecture Dictates the Activity of Hollow TiO2 Nanospheres in Photocatalytic Solar Energy Conversion

Architecture Dictates the Activity of Hollow TiO2 Nanospheres in Photocatalytic Solar Energy Conversion

Hydrogen Boride Sheets and Copper Nanoparticle Composites as a Visible‐Light‐Sensitive Hydrogen Release System

Integration of Plasmonic materials with MOFs/MOF-derived materials for Photocatalysis

Contact Info

Product

Resources

About

In Operando Photoswitching of Cu Oxidation States in Cu-Based Plasmonic Heterogeneous Photocatalysis for Efficient H₂ Evolution

Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion

Architecture Dictates the Activity of Hollow TiO₂ Nanospheres in Photocatalytic Solar Energy Conversion