Ag2O/TiO2/V2O5 one-dimensional nanoheterostructures for superior solar light photocatalytic activity

Wang, Yuan; Liu, Lixin; Xu, Liang; Cao, Xiuxia; Li, Xuhai; Huang, Yuanjie; Meng, Chao; Wang, Zhigang; Zhu, Weiliang

doi:10.1039/c3nr06724f

Cited by 62 publications

(42 citation statements)

References 39 publications

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“…Where, F(R) is the Kubelka-Munk transformation of %R values and hν is the incident photon energy. The evaluated band edge position of ~2.39 eV for unexposed and ~2.30 eV for sunlight exposed V 2 O 5 was in accordance with literature values [50].…”

Section: Resultssupporting

confidence: 55%

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Aslam

Ismail

Salah

et al. 2015

Journal of Hazardous Materials

106

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Section: Resultssupporting

confidence: 55%

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Aslam

Ismail

Salah

et al. 2015

Journal of Hazardous Materials

106

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“…The observed higher photocatalytic activity of Ag/TiO2@PPy than TiO2@PPy, Ag/TiO2, and TiO2 may be due to the fact that PPy and Ag nanoparticles may act as an interfacial charge carrier in the Ag-TiO2-PPy system, which leads to the prevention of electron-hole (e − /h + ) pair recombination, thereby increasing the photocatalytic activity. Moreover, the effectiveness of a ternary composite system (Ag/TiO2@PPy) was comparatively enhanced due to the synergistic effect of Ag (Ag-Ag2O), TiO2 and PPy [29,30]. On the basis of this study, the Ag/TiO2@PPy composite was used for further photocatalytic studies.…”

Section: Resultsmentioning

confidence: 99%

Synthesis and Characterization of Ag-Ag2O/TiO2@polypyrrole Heterojunction for Enhanced Photocatalytic Degradation of Methylene Blue

2016

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Hybrid multi-functional nanomaterials comprising two or more disparate materials have become a powerful approach to obtain advanced materials for environmental remediation applications. In this work, an Ag-Ag 2 O/TiO 2 @polypyrrole (Ag/TiO 2 @PPy) heterojunction has been synthesized by assembling a self-stabilized Ag-Ag 2 O (p type) semiconductor (denoted as Ag) and polypyrrole (π-conjugated polymer) on the surface of rutile TiO 2 (n type). Ag/TiO 2 @PPy was synthesized through simultaneous oxidation of pyrrole monomers and reduction of AgNO 3 in an aqueous solution containing well-dispersed TiO 2 particles. Thus synthesized Ag/TiO 2 @PPy was characterized using X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), field emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM), and UV-Vis diffuse reflectance spectroscopy (UV-vis DSR). The photocatalytic activity of synthesized heterojunction was investigated for the decomposition of methylene blue (MB) dye under UV and visible light irradiation. The results revealed that π-conjugated p-n heterojunction formed in the case of Ag/TiO 2 @PPy significantly enhanced the photodecomposition of MB compared to the p-n type Ag/TiO 2 and TiO 2 @PPy (n-π) heterojunctions. A synergistic effect between Ag-Ag 2 O and PPy leads to higher photostability and a better electron/hole separation leads to an enhanced photocatalytic activity of Ag/TiO 2 @PPy under both UV and visible light irradiations.

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“…[1,8,9] Several semiconducting metal oxides (SMO) are attractive materials for photocatalysis, such as titanium dioxide (TiO 2 ), vanadium pentoxide (V 2 O 5 ), zinc oxide (ZnO), tungsten oxide (WO 3 ), and tin dioxide (SnO 2 ) [9,10] and offer highp hotocatalytic activitiesa tr oom temperatures. [11] TiO 2 is ap romising photoca-talyst for hydrogen production and find applications as selfcleanings urfaces, as antibacterial materials, or in solar andf uel cells. [12,13] TiO 2 particles are naturally abundant and offer strong oxidizingp owerf or decomposition of toxic organic compounds.…”

Section: Introductionmentioning

confidence: 99%

“…[9,13] However,t he wide band-gap energy (E g )o fT iO 2 ( % 3.0-3.2 eV) limits itsp hotocatalytic activities to only the UV range of light.Am ajority of high-performance photocatalyst systemsw ork only under UV light, [9] although the natural solar light only contains % 5-7 %U V-light irradiation of the entire solar spectrum,t husl imiting the extent of photocatalytic reactivity in many practical applications. [11] Visible-light-induced photoreactivity of TiO 2 was improved by doping TiO 2 with other metalso rn onmetals, e.g.,m etal particleso fV ,P t, Pd, or Au, or nonmetalc arbon particles, and mixingw ith otherm etal oxides, such as SnO 2 ,Z nO, and V 2 O 5 . [14,15,16] As doping processes are sometimes costly and complex, it is imperative that simpler and cost-effective processes should be developed for fabrication of heterostructures involving TiO 2 and other low-band-gap SMO materials.…”

Section: Introductionmentioning

confidence: 99%

“…In this regard, vanadium pentoxide offers narrow E g % 2.8 eV andi sa good candidatef or the development of catalysts for photooxidation of the VOCs under visible light. [11,17] Photocatalytic oxidation of liquid cyclohexane and photocatalytic degradation of water pollutantsa re reported in literature. [18,19] Low quantum yield is ab ottleneck in the photocatalytic performance of SMOs.…”

Section: Introductionmentioning

confidence: 99%

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Fabrication of Hierarchical V₂O₅ Nanorods on TiO₂ Nanofibers and Their Enhanced Photocatalytic Activity under Visible Light

et al. 2018

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We report photocatalytic activities of a set of mesoporous, hierarchical “nanorods‐on‐nanofiber” heterostructures produced from the organization of vanadium pentoxide (V2O5) nanorods on titanium dioxide (TiO2) nanofibers fabricated using gas jet fiber (GJF) spinning process. The precursor nanofibers spun from solutions of poly(vinylpyrrolidone), titanium tetraisopropoxide, and vanadium oxytriisopropoxide are calcined at 500–600 °C in air to yield the above hierarchical nanostructures. The calcination temperature and the composition of the spinning solutions are used as factors to obtain different sizes of the nanorods, nanofibers, and the crystallites. Photocatalytic oxidation of gas‐phase ethanol on the heterostructures under visible light at room temperature is studied. The materials calcined at 500 °C show oxidation of ethanol into carbon dioxide and water with about three orders of magnitude higher rate than single‐component V2O5 nanofibers and reference material V2O5 powder. The higher photocatalytic activity is attributed to the slowdown of the electron–hole charge recombination phenomena in the heterostructures as inferred from photoluminescence study. The heterostructure V2O5–TiO2 photocatalyst can be easily regenerated without sacrificing any photocatalytic performance.

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Ag2O/TiO2/V2O5 one-dimensional nanoheterostructures for superior solar light photocatalytic activity

Cited by 62 publications

References 39 publications

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Synthesis and Characterization of Ag-Ag2O/TiO2@polypyrrole Heterojunction for Enhanced Photocatalytic Degradation of Methylene Blue

Fabrication of Hierarchical V₂O₅ Nanorods on TiO₂ Nanofibers and Their Enhanced Photocatalytic Activity under Visible Light

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Ag2O/TiO2/V2O5 one-dimensional nanoheterostructures for superior solar light photocatalytic activity

Cited by 62 publications

References 39 publications

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Evaluation of sunlight induced structural changes and their effect on the photocatalytic activity of V2O5 for the degradation of phenols

Synthesis and Characterization of Ag-Ag2O/TiO2@polypyrrole Heterojunction for Enhanced Photocatalytic Degradation of Methylene Blue

Fabrication of Hierarchical V2O5 Nanorods on TiO2 Nanofibers and Their Enhanced Photocatalytic Activity under Visible Light

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Fabrication of Hierarchical V₂O₅ Nanorods on TiO₂ Nanofibers and Their Enhanced Photocatalytic Activity under Visible Light