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Journal Abstract Search

576 related items for PubMed ID: 29717319

  • 1. Two-step electrodeposition to fabricate the p-n heterojunction of a Cu2O/BiVO4 photoanode for the enhancement of photoelectrochemical water splitting.
    Bai S, Liu J, Cui M, Luo R, He J, Chen A.
    Dalton Trans; 2018 May 15; 47(19):6763-6771. PubMed ID: 29717319
    [Abstract] [Full Text] [Related]

  • 2. Conformal BiVO4-Layer/WO3-Nanoplate-Array Heterojunction Photoanode Modified with Cobalt Phosphate Cocatalyst for Significantly Enhanced Photoelectrochemical Performances.
    Zhang X, Wang X, Wang D, Ye J.
    ACS Appl Mater Interfaces; 2019 Feb 13; 11(6):5623-5631. PubMed ID: 30004671
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  • 4. Fabrication of an Efficient BiVO4-TiO2 Heterojunction Photoanode for Photoelectrochemical Water Oxidation.
    Cheng BY, Yang JS, Cho HW, Wu JJ.
    ACS Appl Mater Interfaces; 2016 Aug 10; 8(31):20032-9. PubMed ID: 27454929
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  • 5. Highly efficient hamburger-like nanostructure of a triadic Ag/Co3O4/BiVO4 photoanode for enhanced photoelectrochemical water oxidation.
    Gao X, Bai Z, Zhang S, Liu J, Li Z.
    RSC Adv; 2020 Dec 17; 10(73):45067-45075. PubMed ID: 35516271
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  • 6. Efficient photoelectrochemical water oxidation using a TiO2 nanosphere-decorated BiVO4 heterojunction photoanode.
    Jiang W, Jiang Y, Tong J, Zhang Q, Li S, Tong H, Xia L.
    RSC Adv; 2018 Dec 07; 8(72):41439-41444. PubMed ID: 35559331
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  • 7. NiFePB-modified ZnO/BiVO4 photoanode for PEC water oxidation.
    Bai S, Jia S, Zhao Y, Feng Y, Luo R, Li D, Chen A.
    Dalton Trans; 2023 May 02; 52(17):5760-5770. PubMed ID: 37038977
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  • 8. BiVO4/WO3/SnO2 Double-Heterojunction Photoanode with Enhanced Charge Separation and Visible-Transparency for Bias-Free Solar Water-Splitting with a Perovskite Solar Cell.
    Baek JH, Kim BJ, Han GS, Hwang SW, Kim DR, Cho IS, Jung HS.
    ACS Appl Mater Interfaces; 2017 Jan 18; 9(2):1479-1487. PubMed ID: 27989115
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  • 10. Photochemically Etching BiVO4 to Construct Asymmetric Heterojunction of BiVO4 /BiOx Showing Efficient Photoelectrochemical Water Splitting.
    Chen X, Zhen C, Li N, Jia N, Xu X, Wang L, Liu G.
    Small Methods; 2023 Mar 18; 7(3):e2201611. PubMed ID: 36605012
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  • 11. Ag-Pi/BiVO4 heterojunction with efficient interface carrier transport for photoelectrochemical water splitting.
    Gao Y, Li X, Hu J, Fan W, Wang F, Xu D, Ding J, Bai H, Shi W.
    J Colloid Interface Sci; 2020 Nov 01; 579():619-627. PubMed ID: 32645529
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  • 12. Improved photoelectrochemical activity of CaFe2O4/BiVO4 heterojunction photoanode by reduced surface recombination in solar water oxidation.
    Kim ES, Kang HJ, Magesh G, Kim JY, Jang JW, Lee JS.
    ACS Appl Mater Interfaces; 2014 Oct 22; 6(20):17762-9. PubMed ID: 25232699
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  • 13. WO3/BiVO4 Type-II Heterojunction Arrays Decorated with Oxygen-Deficient ZnO Passivation Layer: A Highly Efficient and Stable Photoanode.
    Ma Z, Song K, Wang L, Gao F, Tang B, Hou H, Yang W.
    ACS Appl Mater Interfaces; 2019 Jan 09; 11(1):889-897. PubMed ID: 30560657
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  • 16. 1D ZnO/BiVO4 heterojunction photoanodes for efficient photoelectrochemical water splitting.
    Yan L, Zhao W, Liu Z.
    Dalton Trans; 2016 Jul 28; 45(28):11346-52. PubMed ID: 27328331
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  • 18. Photoelectrochemical performance of a nanostructured BiVO4/NiOOH/FeOOH-Cu2O/CuO/TiO2 tandem cell for unassisted solar water splitting.
    Sitaaraman SR, Grace AN, Zhu J, Sellappan R.
    Nanoscale Adv; 2024 Apr 30; 6(9):2407-2418. PubMed ID: 38694471
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  • 19. An Electrochemically Treated BiVO4 Photoanode for Efficient Photoelectrochemical Water Splitting.
    Wang S, Chen P, Yun JH, Hu Y, Wang L.
    Angew Chem Int Ed Engl; 2017 Jul 10; 56(29):8500-8504. PubMed ID: 28516511
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