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Literature DB >> 26414483

Bandgap Tunability in Sb-Alloyed BiVO₄ Quaternary Oxides as Visible Light Absorbers for Solar Fuel Applications.

Anna Loiudice^1,2, Jie Ma^1,2, Walter S Drisdell^1,2, Tracy M Mattox³, Jason K Cooper^1,2, Timothy Thao¹, Cinzia Giannini⁴, Junko Yano^1,2, Lin-Wang Wang^1,2, Ian D Sharp^1,5, Raffaella Buonsanti^1,2.

Abstract

The challenge of fine compositional tuning and microstructure control in complex oxides is overcome by developing a general two-step synthetic approach. Antimony-alloyed bismuth vanadate, which is identified as a novel light absorber for solar fuel applications, is prepared in a wide compositional range. The bandgap of this quaternary oxide linearly decreases with the Sb content, in agreement with first-principles calculations.

Entities: Chemical

Keywords: colloidal synthesis; light absorbers; materials discovery; quaternary oxides; solar energy conversion

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Substances：

Year: 2015 PMID： 26414483 DOI： 10.1002/adma.201502361

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

2 in total

1. Chemical transformations at the nanoscale: nanocrystal-seeded synthesis of β-Cu₂V₂O₇ with enhanced photoconversion efficiencies.

Authors: Chethana Gadiyar; Michal Strach; Pascal Schouwink; Anna Loiudice; Raffaella Buonsanti
Journal: Chem Sci Date: 2018-05-29 Impact factor: 9.825

2. Doping-free bandgap tunability in Fe₂O₃ nanostructured films.

Authors: Sujit A Kadam; Giang Thi Phan; Duy Van Pham; Ranjit A Patil; Chien-Chih Lai; Yan-Ruei Chen; Yung Liou; Yuan-Ron Ma
Journal: Nanoscale Adv Date: 2021-07-29

2 in total

Bandgap Tunability in Sb-Alloyed BiVO₄ Quaternary Oxides as Visible Light Absorbers for Solar Fuel Applications.

1. Chemical transformations at the nanoscale: nanocrystal-seeded synthesis of β-Cu2V2O7 with enhanced photoconversion efficiencies.

2. Doping-free bandgap tunability in Fe2O3 nanostructured films.

1. Chemical transformations at the nanoscale: nanocrystal-seeded synthesis of β-Cu₂V₂O₇ with enhanced photoconversion efficiencies.

2. Doping-free bandgap tunability in Fe₂O₃ nanostructured films.