2018
DOI: 10.1021/acsanm.8b00281
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Fabrication of Porous Cu-Doped BiVO4 Nanotubes as Efficient Oxygen-Evolving Photocatalysts

Abstract: We introduce a facile route to fabricate one-dimensional (1D) porous Cu 2+ -doped BiVO 4 (Cu-BVO) nanotubes with uniform size distribution and high structural stability. First, an electrospinning technique was developed to prepare the sacrificial template of polyacrylonitrile (PAN) nanofibers with a smooth surface. Second, a conformal layer of Cu-BVO nanoparticles was coated onto the PAN template through a solvothermal method to obtain the solid core−shell precursor which was finally converted into the product… Show more

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Cited by 68 publications
(44 citation statements)
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“…After PEC test (about 2.5 h), it remains the same surface morphology of porous nanotube (Figure 6B) as before. According to the value of photocurrent density and IPCE, the BiV 0.97 W 0.03 O 4 /Co-B nanotube exhibits the highest PEC performance ever achieved for BiVO 4 nanofiber using electrospinning (Yoon et al, 2015;Antony et al, 2016;Liu et al, 2017;He et al, 2018;Li et al, 2019). Table S1 shows the comparison of photocurrent data reported in the literature with the photocurrent value obtained in the present study.…”
Section: Pec Performancesupporting
confidence: 52%
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“…After PEC test (about 2.5 h), it remains the same surface morphology of porous nanotube (Figure 6B) as before. According to the value of photocurrent density and IPCE, the BiV 0.97 W 0.03 O 4 /Co-B nanotube exhibits the highest PEC performance ever achieved for BiVO 4 nanofiber using electrospinning (Yoon et al, 2015;Antony et al, 2016;Liu et al, 2017;He et al, 2018;Li et al, 2019). Table S1 shows the comparison of photocurrent data reported in the literature with the photocurrent value obtained in the present study.…”
Section: Pec Performancesupporting
confidence: 52%
“…From Figure S4, we can see that there are a lot of recombination of photogenerated electron-hole pairs both in bulk and surface during the overall reaction. The results of PEC test show that the BiV 0.97 W 0.03 O 4 /Co-B nanotube demonstrated better photocatalytic activity compared with other nanofibers that have ever been reported (Yoon et al, 2015;Antony et al, 2016;Liu et al, 2017;He et al, 2018;Li et al, 2019). The reasons can be explained as follows: first of all, the nanotube with large interface area and the porous structure can keep in good contact with the electrolyte, and enrich the active sites.…”
Section: Pec Performancementioning
confidence: 83%
“…For the pure BFO PNTs, the Bi 4 f spectrum in shows two symmetry peaks located at 158.2 and 163.6 eV, which are attributed to the binding energies of Bi 4f 7/2 and Bi 4f 5/2 , respectively, being the characteristic of Bi 3 + (Figure 5a). [16] In contrast, three asymmetry peaks are observed in the Fe 2p XPS spectrum, which can be deconvoluted into three components: Fe 2p 3/2 at 711.5 eV and Fe 2p 1/2 at 725.5 eV for Fe 3 + , Fe 2p 3/2 at 709.9 eV and Fe 2p 1/2 at 723.3 eV for Fe 2 + , and two satellite peaks (Figure 5b). [17] The appearance of Fe 2 + is attributed to the presence of oxygen vacancy in BFO lattice with requirement of electrical neutrality.…”
Section: Resultsmentioning
confidence: 95%
“…The deposition and doping of metallic elements could change the photocatalytic properties mainly in the following two aspects. First, when metal ions enter the lattice, they will change the crystallinity of the Bi‐based photocatalysts or introduce defects, so as to enhance the absorption properties of light and the separation efficiency of photogenerated charges 137‐140 . For instance, Regmi et al synthesized Fe‐doped BiVO 4 with the in‐gap state between the valence band and conduction band of BiVO 4 , resulting in enhancing electron‐hole separation and improving the absorption capacity of visible light.…”
Section: Structural Tuning Of Bismuth‐based Photocatalytic Materialsmentioning
confidence: 99%