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Design of multicomponent photocatalysts for hydrogen production under visible light using water-soluble titanate nanodisks

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Title
Design of multicomponent photocatalysts for hydrogen production under visible light using water-soluble titanate nanodisks
Author(s)
Dinh C.-T.; Pham M.H.; Yongbeom Seo; Kleitz F.; Do T.O.
Subject
Cadmium sulfide, ; Catalysis, ; Catalyst activity, ; Hydrogen production, ; Titanium compounds, ; Catalytic reactions, ; Charge separations, ; Ethanol-water solutions, ; Photocatalytic process, ; Production process, ; Tetraethylammonium, ; Vectorial electron transfer, ; Visible light absorption, ; Nickel
Publication Date
2014-05
Journal
NANOSCALE, v.6, no.9, pp.4819 - 4829
Publisher
ROYAL SOC CHEMISTRY
Abstract
We report the design of efficient multicomponent photocatalysts (MPs) for H2 production under visible light by using water-soluble ultrathin titanate nanodisks (TNDs) stabilized by tetraethylammonium cations (TEA +) as building blocks. The photocatalysts are designed in such a way to significantly enhance simultaneously the efficiency of the three main steps in the photocatalytic process i.e., light absorption, charge separation and catalytic reaction. We show, as an example, the construction of water-soluble CdS-TND-Ni MPs. The designed CdS-TND-Ni MPs, in which CdS nanoparticles and TNDs are intimately assembled to enhance the charge transfer and surface area, are controlled in composition to optimize visible light absorption. The conception of the MPs allows them to be highly dispersed in water which markedly improves the photocatalytic H2 production process. Most importantly, a Ni co-catalyst is selectively located on the surface of TNDs, enabling vectorial electron transfer from CdS to TND and to Ni, which drastically improves the charge separation. Consequently, under visible light illumination (λ ≥ 420 nm), the optimally designed CdS-TND-Ni MPs could generate H2 from ethanol-water solution with rate as high as 15.326 mmol g-1 h-1 during a reaction course of 15 h and with an apparent quantum yield of 24% at 420 nm. Moreover, we also demonstrate that TNDs can be combined with other single or mixed metal sulfide to form water-soluble metal sulfide-TNDs composites which could also be of great interest for photocatalytic H2 production. © 2014 the Partner Organisations.
URI
https://pr.ibs.re.kr/handle/8788114/1553
DOI
10.1039/c3nr06602a
ISSN
2040-3364
Appears in Collections:
Center for Nanomaterials and Chemical Reactions(나노물질 및 화학반응 연구단) > 1. Journal Papers (저널논문)
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