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Efficient solar-driven water splitting by nanocone BiVO4-perovskite tandem cells.


ABSTRACT: Bismuth vanadate (BiVO4) has been widely regarded as a promising photoanode material for photoelectrochemical (PEC) water splitting because of its low cost, its high stability against photocorrosion, and its relatively narrow band gap of 2.4 eV. However, the achieved performance of the BiVO4 photoanode remains unsatisfactory to date because its short carrier diffusion length restricts the total thickness of the BiVO4 film required for sufficient light absorption. We addressed the issue by deposition of nanoporous Mo-doped BiVO4 (Mo:BiVO4) on an engineered cone-shaped nanostructure, in which the Mo:BiVO4 layer with a larger effective thickness maintains highly efficient charge separation and high light absorption capability, which can be further enhanced by multiple light scattering in the nanocone structure. As a result, the nanocone/Mo:BiVO4/Fe(Ni)OOH photoanode exhibits a high water-splitting photocurrent of 5.82 ± 0.36 mA cm(-2) at 1.23 V versus the reversible hydrogen electrode under 1-sun illumination. We also demonstrate that the PEC cell in tandem with a single perovskite solar cell exhibits unassisted water splitting with a solar-to-hydrogen conversion efficiency of up to 6.2%.

SUBMITTER: Qiu Y 

PROVIDER: S-EPMC4928885 | biostudies-other | 2016 Jun

REPOSITORIES: biostudies-other

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Efficient solar-driven water splitting by nanocone BiVO4-perovskite tandem cells.

Qiu Yongcai Y   Liu Wei W   Chen Wei W   Chen Wei W   Zhou Guangmin G   Hsu Po-Chun PC   Zhang Rufan R   Liang Zheng Z   Fan Shoushan S   Zhang Yuegang Y   Cui Yi Y  

Science advances 20160617 6


Bismuth vanadate (BiVO4) has been widely regarded as a promising photoanode material for photoelectrochemical (PEC) water splitting because of its low cost, its high stability against photocorrosion, and its relatively narrow band gap of 2.4 eV. However, the achieved performance of the BiVO4 photoanode remains unsatisfactory to date because its short carrier diffusion length restricts the total thickness of the BiVO4 film required for sufficient light absorption. We addressed the issue by deposi  ...[more]

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