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Journal Abstract Search

487 related items for PubMed ID: 35957577

  • 1. Boosting the Performance of BiVO4 Photoanodes by the Simultaneous Introduction of Oxygen Vacancies and Cocatalyst via Photoelectrodeposition.
    Sun Q, Ren K, Qi L.
    ACS Appl Mater Interfaces; 2022 Aug 24; 14(33):37833-37842. PubMed ID: 35957577
    [Abstract] [Full Text] [Related]

  • 2. Green light all the way: Triple modification synergistic modification effect to enhance the photoelectrochemical water oxidation performance of BiVO4 photoanode.
    Ge J, Wu L, Gao L, Niu H, Liu M, Zou Y, Wang J, Jin J.
    J Colloid Interface Sci; 2025 Jan 24; 677(Pt A):90-98. PubMed ID: 39083895
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  • 3. Boosting photoelectrochemical activity of bismuth vanadate by implanting oxygen-vacancy-rich cobalt (oxy)hydroxide.
    Sun H, Hua W, Liang S, Li Y, Wang JG.
    J Colloid Interface Sci; 2022 Apr 24; 611():278-286. PubMed ID: 34953460
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  • 4. A BiVO4 Photoanode with a VOx Layer Bearing Oxygen Vacancies Offers Improved Charge Transfer and Oxygen Evolution Kinetics in Photoelectrochemical Water Splitting.
    Liu B, Wang X, Zhang Y, Xu L, Wang T, Xiao X, Wang S, Wang L, Huang W.
    Angew Chem Int Ed Engl; 2023 Mar 01; 62(10):e202217346. PubMed ID: 36642699
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  • 6. New BiVO4 Dual Photoanodes with Enriched Oxygen Vacancies for Efficient Solar-Driven Water Splitting.
    Wang S, Chen P, Bai Y, Yun JH, Liu G, Wang L.
    Adv Mater; 2018 May 01; 30(20):e1800486. PubMed ID: 29602201
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  • 7. Enriched Surface Oxygen Vacancies of Photoanodes by Photoetching with Enhanced Charge Separation.
    Feng S, Wang T, Liu B, Hu C, Li L, Zhao ZJ, Gong J.
    Angew Chem Int Ed Engl; 2020 Jan 27; 59(5):2044-2048. PubMed ID: 31769570
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  • 8. Ni-Doped BiVO4 photoanode for efficient photoelectrochemical water splitting.
    Chen M, Chang X, Li C, Wang H, Jia L.
    J Colloid Interface Sci; 2023 Jun 15; 640():162-169. PubMed ID: 36848769
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  • 9. Systematic Constructing FeOCl/BiVO4 Hetero-Interfacial Hybrid Photoanodes for Efficient Photoelectrochemical Water Splitting.
    Chen Y, Li X, Yang H, Huang Y.
    Small; 2024 Sep 15; 20(37):e2402406. PubMed ID: 38716755
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  • 11. Unveiling the Influence of Sulfur Doping on Photoelectrochemical Performance in BiVO4/FeOOH Heterostructures.
    He Y, Zhang R, Wang Z, Ye H, Zhao H, Lu B, Du P, Lu X.
    Anal Chem; 2024 Jan 09; 96(1):110-116. PubMed ID: 38150391
    [Abstract] [Full Text] [Related]

  • 12. A Cobalt-Based Metal-Organic Framework as Cocatalyst on BiVO4 Photoanode for Enhanced Photoelectrochemical Water Oxidation.
    Zhang W, Li R, Zhao X, Chen Z, Law AW, Zhou K.
    ChemSusChem; 2018 Aug 22; 11(16):2710-2716. PubMed ID: 29975458
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  • 13. Rapid Synthesis of Ultrathin Ni:FeOOH with In Situ-Induced Oxygen Vacancies for Enhanced Water Oxidation Activity and Stability of BiVO4 Photoanodes.
    Gaikwad MA, Ghorpade UV, Suryawanshi UP, Kumar PV, Jang S, Jang JS, Tran L, Lee JS, Bae H, Shin SW, Suryawanshi MP, Kim JH.
    ACS Appl Mater Interfaces; 2023 May 03; 15(17):21123-21133. PubMed ID: 37083398
    [Abstract] [Full Text] [Related]

  • 14. Dual modification of BiVO4 photoanode by enriching bulk and surface oxygen vacancies for enhanced photoelectrochemical performance.
    Yang L, Wang R, Zhou N, Liang D, Chu D, Deng C, Yu H, Lv J.
    J Colloid Interface Sci; 2023 Feb 03; 631(Pt A):35-45. PubMed ID: 36368214
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  • 18. Stable Cocatalyst-Free BiVO4 Photoanodes with Passivated Surface States for Photocorrosion Inhibition.
    Gao RT, Wang L.
    Angew Chem Int Ed Engl; 2020 Dec 14; 59(51):23094-23099. PubMed ID: 32888248
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  • 19. Dual modification of BiVO4 photoanode for synergistically boosting photoelectrochemical water splitting.
    Yin D, Ning X, Zhang Q, Du P, Lu X.
    J Colloid Interface Sci; 2023 Sep 15; 646():238-244. PubMed ID: 37196497
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