Electrospinning Preparation of Nanostructured g-C3N4/BiVO4 Composite Films with an Enhanced Photoelectrochemical Performance

Wang, Yan; Sun, Jianyang; Jiang, Li; Zhao, Xu

doi:10.1021/acs.langmuir.7b00893

Cited by 83 publications

(58 citation statements)

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“…Dies wurde durch das Vermischen von CN-Schichten mit BiVO 4 -Nanopartikeln (E g % 2.53 eV), was zu einer 10-fachen Photostromzunahme führte, [6] sowie mit anderen Va nadaten [124] und mit Hämatit gezeigt. Dies wurde durch das Vermischen von CN-Schichten mit BiVO 4 -Nanopartikeln (E g % 2.53 eV), was zu einer 10-fachen Photostromzunahme führte, [6] sowie mit anderen Va nadaten [124] und mit Hämatit gezeigt.…”

Section: Angewandte Chemieunclassified

“…[3] In den letzten Jahren wurden einige Fortschritte unter Verwendung von BiVO 4 -Photoanoden erreicht, die eine E g % 2.4 eV und eine Leitungsband(LB)-Kante nahe am Wasserreduktionspotential aufweisen. [4][5][6][7][8] In jüngster Zeit sind auch zahlreiche andere Halbleitermaterialien fürP EC in den Fokus gerückt, darunter Oxidnitride, [9] Metallchalkogenide [9] und kohlenstoffbasierte Materialien. [10] All diese Materialien zeigen vielversprechende Ergebnisse,j edoch steht ihre Erforschung noch immer am Anfang.T rotz signifikanter Fortschritte in diesem Bereich [8,[11][12][13] verbleiben einige Beschränkungen wie etwa Kosten, Stabilitäti nS äure/Base und Ladungstrennungseffizienz.…”

Section: Introductionunclassified

“…1h[6] [a] Abgeschieden auf leitfähiger, mit FTO oder ITO beschichteter Glasphotoanode. 1h[6] [a] Abgeschieden auf leitfähiger, mit FTO oder ITO beschichteter Glasphotoanode.…”

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Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

et al. 2019

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Graphitische Kohlenstoffnitridmaterialien (CN) sind aufgrund ihrer einstellbaren Bandlücke, geeigneten Energiebandposition, hohen Stabilität unter harschen chemischen Bedingungen und geringen Kosten interessante Photokatalysatoren und heterogene Katalysatoren für zahlreiche Reaktionen. Allerdings befindet sich die Nutzung von CN in photoelektrochemischen (PEC) und photoelektronischen Bauelementen noch in einem frühen Stadium, da die Abscheidung einer hochwertigen und homogenen CN‐Schicht auf Substraten, die breite Bandlücke, die schlechte Ladungstrennungseffizienz sowie die geringe elektronische Leitfähigkeit noch Schwierigkeiten bereiten. In diesem Kurzaufsatz diskutieren wir Synthesewege zur Herstellung verschiedener Strukturen von CN auf Substraten und deren grundlegende photophysikalische Eigenschaften und photoelektrochemische Aktivität. Wir beschreiben die wesentlichsten Herausforderungen bei der Einbindung von CN in PEC‐Zellen sowie mögliche Wege zur Überwindung der bestehenden Beschränkungen zur Integration von CN‐Materialien in PEC und andere photoelektronische Bauelemente.

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Section: Angewandte Chemieunclassified

Section: Introductionunclassified

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Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

et al. 2019

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“…Moreover, forming Z‐scheme electrons transfer mechanism in heterojunctions possesses unique properties when compared to other heterojunctions mechanism (p‐n junction or Schottky junction) and as a consequence it can retain the reductive electrons in the higher CB and oxidative holes in the lower VB, resulting in not only promoted charge separation rate but also strong redox ability of photogenerated charges . Hence, the combination of BiVO 4 with another semiconductor to introduce Z‐scheme is a promising way for enhancing the PEC activity of BiVO 4 including Ag@AgCl/BiVO 4 , BiVO 4 ‐W‐WO 3 and g‐C 3 N 4 /BiVO 4 . At the same time, the metal‐free graphitic carbon nitride (g‐C 3 N 4 ) is a good visible‐light photocatalyst with narrow band‐gap (∼2.7 eV), non‐toxic properties and thermal and chemical stabilities.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Charge Transfer Process of Bismuth Vanadate Interleaved Graphitic Carbon Nitride Nanohybrids in Mediator‐Free Direct Z Scheme Photoelectrocatalytic Water Splitting

et al. 2019

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In the present work, graphitic carbon nitride‐bismuth vanadate (g‐C3N4‐BiVO4) nanohybrid materials with different wt. % of g‐C3N4 were successfully synthesized by a simple hydrothermal method and characterized by UV‐Visible diffuse reflectance spectroscopy (DRS), photoluminescence spectroscopy (PLS), X‐ray diffraction (XRD), X‐ray photoelectron spectroscopy (XPS), Fourier‐transform infrared spectroscopy (FT‐IR), field emission scanning electron microscopy (FE‐SEM), energy dispersive X‐ray (EDAX) absorption spectroscopy, high‐resolution transmission electron microscopy (HR‐TEM) and selected area electron diffraction (SAED) analysis. The photoelectrocatalytic performance of g‐C3N4‐BiVO4 nanohybrid materials were investigated by water splitting under AM 1.5G (100 mWcm−2) illumination. The g‐C3N4‐BiVO4 photoanode with 10 wt. % of g‐C3N4 exhibited higher photoelectrocatalytic activity towards water splitting, which was 1.6 and 2.8‐folds higher than that of the pure BiVO4 and g‐C3N4, respectively. The remarkably enhanced photoelectrocatalytic activity of the nanohybrid is due to the efficient photogenerated electron‐hole separation through Z‐scheme mechanism, enhanced interfacial charge transfer process and suppression in the charge recombination rate. Hence, the g‐C3N4‐BiVO4 nanohybrid materials can be potential candidates for light harvesting applications.

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“…Metal‐free graphitic carbon nitride (g‐C 3 N 4 ) is a new class of photocatalyst among a variety of VLD photocatalysts ,. As a most stable allotrope of carbon nitride, g‐C 3 N 4 , possessing layer structure like graphite, is composed of weak van der Waals force between adjacent layers ,. Typically, bulk g‐C 3 N 4 can be easily prepared by one‐step polymerization of abundant precursors such as cyanamide, dicyandiamide, melamine and urea .…”

Section: Introductionmentioning

confidence: 99%

Acid-Exfoliated g-C₃ N₄ Nanosheets Coated Silver Nanoparticles with Tunable Loading: An Efficient Catalyst for Visible Light Photocatalytic Reaction

Zhou

Zeng

et al. 2017

ChemistrySelect

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Exfoliating bulk g‐C3N4 into its nanosheets attracts great interests due to their amazing application in photocatalytic area, especially supported with silver nanoparticles (Ag NPs). Herein, a facile acid‐assisted method was firstly developed to exfoliate the bulk g‐C3N4 into g‐C3N4 nanosheets using concentrated hydrochloric acid. Ag NPs with average diameter of ∼40 nm were coated into g‐C3N4 nanosheets through electrostatic absorbance effect. By adjusting the feeding ratios between Ag NPs and g‐C3N4, the Ag NPs/g‐C3N4 composites with tunable Ag NPs can be achieved. Results illuminate that after coated with Ag NPs, photocatalytic performance of the Ag NPs/g‐C3N4 composites is enhanced significantly under visible light irradiation compared with that of the pure g‐C3N4. Furthermore, with an appropriate mass ratio, the Ag NPs/g‐C3N4 (6:5) composite exhibits the best photocatalytic activity and favorable stability due to the relatively higher Ag NPs loading.

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Electrospinning Preparation of Nanostructured g-C₃N₄/BiVO₄ Composite Films with an Enhanced Photoelectrochemical Performance

Cited by 83 publications

References 57 publications

Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

Enhanced Charge Transfer Process of Bismuth Vanadate Interleaved Graphitic Carbon Nitride Nanohybrids in Mediator‐Free Direct Z Scheme Photoelectrocatalytic Water Splitting

Acid-Exfoliated g-C₃ N₄ Nanosheets Coated Silver Nanoparticles with Tunable Loading: An Efficient Catalyst for Visible Light Photocatalytic Reaction

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Electrospinning Preparation of Nanostructured g-C3N4/BiVO4 Composite Films with an Enhanced Photoelectrochemical Performance

Cited by 83 publications

References 57 publications

Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

Kohlenstoffnitridmaterialien für photochemische Zellen zur Wasserspaltung

Enhanced Charge Transfer Process of Bismuth Vanadate Interleaved Graphitic Carbon Nitride Nanohybrids in Mediator‐Free Direct Z Scheme Photoelectrocatalytic Water Splitting

Acid-Exfoliated g-C3 N4 Nanosheets Coated Silver Nanoparticles with Tunable Loading: An Efficient Catalyst for Visible Light Photocatalytic Reaction

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Product

Resources

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Electrospinning Preparation of Nanostructured g-C₃N₄/BiVO₄ Composite Films with an Enhanced Photoelectrochemical Performance

Acid-Exfoliated g-C₃ N₄ Nanosheets Coated Silver Nanoparticles with Tunable Loading: An Efficient Catalyst for Visible Light Photocatalytic Reaction