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Modification of an oxyhalide solid-solution photocatalyst with an efficient O-evolving cocatalyst and electron mediator for two-step photoexcitation overall water splitting
Two-step photoexcitation overall water splitting based on particulate photocatalysts represents a promising approach for low-cost solar hydrogen production. The performance of an O 2 -evolution photocatalyst and electron mediator between two photocatalysts crucially influences the construction of an...
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| Published in: | Nanoscale 2024-01, Vol.16 (4), p.1733-1741 |
|---|---|
| Main Authors: | , , , , , , |
| Format: | Article |
| Language: | |
| Online Access: | Get full text |
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| Summary: | Two-step photoexcitation overall water splitting based on particulate photocatalysts represents a promising approach for low-cost solar hydrogen production. The performance of an O
2
-evolution photocatalyst and electron mediator between two photocatalysts crucially influences the construction of an efficient two-step excitation water-splitting system. Bismuth-tantalum oxyhalides are emerging photocatalysts for O
2
evolution reactions and can be applied in two-step water-splitting systems. In this study, a highly crystalline Bi
4
TaO
8
Cl
0.9
Br
0.1
solid solution with microplatelet morphology was synthesized by the dual flux method. The light absorption intensity and charge transfer efficiency of the Bi
4
TaO
8
Cl
0.9
Br
0.1
solid solution were higher than those of Bi
4
TaO
8
Cl and Bi
4
TaO
8
Br; thus, the sacrificial O
2
evolution activity of Bi
4
TaO
8
Cl
0.9
Br
0.1
photocatalyst was obviously enhanced. The two-step excitation water splitting with a solid-state electron mediator was successfully constructed using Bi
4
TaO
8
Cl
0.9
Br
0.1
as the O
2
-evolution photocatalyst and Ru/SrTiO
3
:Rh as the H
2
-evolution photocatalyst. The CoO
x
cocatalyst and reduced graphene oxide decorations on the surface of Bi
4
TaO
8
Cl
0.9
Br
0.1
promoted the catalytic O
2
generation process on Bi
4
TaO
8
Cl
0.9
Br
0.1
and electron transfer between CoO
x
/Bi
4
TaO
8
Cl
0.9
Br
0.1
and Ru/SrTiO
3
:Rh photocatalysts, respectively. As a result, the apparent quantum yield for this overall water-splitting system was 1.26% at 420 nm, which surpassed the present performance of the two-step excitation water-splitting systems consisting of metal oxyhalide photocatalysts. This study demonstrates the validity of high-quality solid-solution photocatalysts with suitable surface modification for efficient solar hydrogen production from water splitting.
The decoration of high-crystallinity Bi
4
TaO
8
Cl
0.9
Br
0.1
solid solution with CoO
x
cocatalyst and reduced graphene oxide promoted O
2
generation and electron transfer, thus boosting active two-step excitation water splitting under visible light. |
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| ISSN: | 2040-3364 2040-3372 |
| DOI: | 10.1039/d3nr05498e |