Visible light induced generation of hydrogen from H<sub>2</sub>S in mixed semiconductor dispersions; improved efficiency through inter-particle electron transfer

Serpone, Nick; Borgarello, Enrico; Grätzel, Michaël

doi:10.1039/c39840000342

Cited by 297 publications

(153 citation statements)

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“…For example, Reber and Rusek reported that platinized CdS (Pt-CdS) obtained by the photodeposition showed an enhanced hydrogen production rate of 300 mL/h at 1.5 wt% loading of Pt, 10 whereas Serpone et al observed that the enhancement of hydrogen production by platinization was almost negligible. 23 Although photoplatinization is expected to make a better contact at the Pt/CdS interface than physical mixing, the former was reportedly much less effective than the latter for the photocatalytic degradation of lactic acid. 32 The surface chemistry of CdS usually interferes with the photochemical reduction of Pt ion (Pt 4+ ) as follows:…”

Section: Introductionmentioning

confidence: 99%

“…It enhanced hydrogen production compared to plain CdS, 25 but sometimes lowered the efficiency by 8 times. 23 We report a comparative study on the hybridization of CdS, TiO 2 , and Pt in terms of hydrogen production and photocurrent generation under visible light (l > 420 nm). It was found that changing the order of hybridization in the preparation step significantly altered the efficiency for both hydrogen production and photocurrent generation.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, the CdS-based photocatalytic system can be applied to producing hydrogen from water containing electron donors (e.g., wastewaters). The photocatalytic efficiency of CdS is substantially influenced by various factors such as crystallinity, 9 surface area, 10 surface etching, 11,14,15 pH and related properties (e.g., flat band potential, surface charge), [16][17][18][19][20] ED and solvent (e.g., alcohols, sulfide, sulfite), 10,18,21,22 cocatalyst (e.g., Pt, Ni), 10,14,15,[20][21][22][23][24][25][26][27] support materials (e.g., Al 2 O 3 , TiO 2 , ZnO, ZnS, zeolite, KNbO 3 ), 22,[28][29][30][31] etc. For hydrogen production, CdS particles are usually platinized either by physical mixing with Pt particles (e.g., Pt black, Pt sol) or by photoplatinization.…”

Section: Introductionmentioning

confidence: 99%

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Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

2008

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A variety of combinations of CdS, TiO 2 , and Pt in preparing the hybrid catalysts were studied for hydrogen production under visible light (l > 420 nm) irradiation. The preparation method sensitively influenced the activity of the ternary hybrid catalysts. The formation of the potential gradient at the interface between CdS and TiO 2 is necessary in achieving the efficient charge separation and transfer and how the platinum as a cocatalyst is loaded onto the CdS/TiO 2 hybrid catalysts determines the overall hydrogen production efficiency. The common method of photoplatinization of CdS/TiO 2 hybrid [Pt-(CdS/TiO 2 )] was much less efficient than the present method in which Pt was photodeposited on bare TiO 2 , which was followed by the deposition of CdS [CdS/(Pt-TiO 2 )]. The CdS/(Pt-TiO 2 ) has the hydrogen production rate ranging (6-9) Â 10, which is higher by a factor of 3-30 than that of Pt-(CdS/TiO 2 ). The photocatalytic activity of the ternary hybrid catalysts was extremely sensitive to where the platinum is loaded. The photoactivity of the hybrid catalyst was also assessed in terms of the photocurrent collected by the methyl viologen electron shuttle in the catalyst suspension. CdS/(Pt-TiO 2 ) generated higher photocurrents than Pt-(CdS/TiO 2 ) by a factor of 2-7. The extreme sensitivity of the preparation method to the hydrogen production activity should be taken into account when hybrid photocatalysts are designed and prepared.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

2008

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“…Differences in the electronic structure of nanocomposites based on metal oxides/sulphides have a profound influence on photocatalytic properties. The mixture of semiconductors based on TiO 2 /CdS has attracted attention because of their potential applications in the photodegradation of organic pollutants [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16], the photoelectrolysis of water for hydrogen production [17][18][19][20], and the sensitization of solar cells [21,22]. Due to its wide band gap (3.0 for rutile and 3.2 eV for anatase), TiO 2 is able to absorb light in the UV range, which constitutes 3-5% of solar irradiation, while semiconductors with a narrower band gap, such as CdS, are effective under visible light.…”

Section: Introductionmentioning

confidence: 99%

Photosensitization of TiO2 P25 with CdS Nanoparticles for Photocatalytic Applications

Trenczek-Zając¹,

Banaś²,

Świerczek³

et al. 2017

Archives of Metallurgy and Materials

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A TiO 2 /CdS coupled system was prepared by mixing the TiO 2 P25 with CdS synthesized by means of the precipitation method. It was found that the specific surface area (SSA) of both components is extremely different and equals 49.5 for TiO 2 and 145.4 m 2 ·g -1 for CdS. The comparison of particle size distribution and images obtained by means of transmission electron microscopy (TEM) showed agglomeration of nanocomposites. X-ray diffraction (XRD) patterns suggest that CdS crystallizes in a mixture of cubic and hexagonal phases. Optical reflectance spectra revealed a gradual shift of the fundamental absorption edge towards longer wavelengths with increasing CdS molar fraction, which indicates an extension of the absorption spectrum of TiO 2 . The photocatalytic activity in UV and UV-vis was tested with the use of methyl orange (MO). The Langmuir-Hinshelwood model described well the photodegradation process of MO. The results showed that the photocatalytic behaviour of the TiO 2 /CdS mixture is significantly better than that of pure nanopowders.

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“…Since UV light only accounts for about 5% of the solar radiation that reaches Earth's surface, the inability to utilize visible light limits the efficiency of solar photocatalytic hydrogen generation. Thus, different strategies have been adopted in order to improve this efficiency, including: i) varying the sizes of the nanoparticles, 10 ii) doping with metal/non-metal ions, 11 iii) coupling the titanium dioxide with low band gap semiconductors, 12 and iv) supporting metallic/metal oxide nanoparticles on the oxide surface to promote electron and hole transfer reactions at the TiO 2 /substrate interface. 13,14 In addition, it is desirable to produce TiO 2 structures composed mainly of the anatase phase, because it has higher catalytic activity than the rutile phase.…”

Section: Introductionmentioning

confidence: 99%

Growth of TiO2 nanotube arrays with simultaneous Au nanoparticles impregnation: photocatalysts for hydrogen production

Feil¹,

Migowski²,

Scheffer³

et al. 2010

J. Braz. Chem. Soc.

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Um novo método para a fabricação de nanotubos (NTs) de TiO 2 organizados e impregnados com nanopartículas (NPs) de ouro foi desenvolvido, e as propriedades estruturais, morfológicas e ópticas dos NTs obtidos foram investigadas. Os arranjos de NTs de TiO 2 foram crescidos pela oxidação anódica de Ti metálico utilizando soluções eletrolíticas contendo íons fluoreto e NPs de Au. As estruturas resultantes foram caracterizadas por espectrometria de retroespalhamento Rutherford (RBS), difratometria de raios X com incidência rasante (GIXRD), microscopias eletrônicas de transmissão (TEM) e de varredura (SEM) e espectroscopia UV-Vis. Tanto os arranjos de NTs sem Au quanto os impregnados com Au mostraram atividade fotocatalítica boa e estável na geração de hidrogênio a partir de misturas água/metanol. Os nanotubos de TiO 2 contendo Au foram mais ativos na fotogeração de hidrogênio do que os NTs de TiO 2 sem Au.A novel method for the fabrication of TiO 2 nanotubes (NTs) impregnated with gold nanoparticles (NPs) is reported. TiO 2 NT arrays were grown by anodic oxidation of Ti metal using fluoride electrolytes containing Au NPs. Resulting structures were characterized by Rutherford backscattering spectrometry (RBS), grazing incidence X-ray diffractometry (GIXRD), transmission and scanning electron microscopy (SEM and TEM) and UV-Vis spectroscopy. Au-free and Au-impregnated TiO 2 NT arrays showed good and stable photocatalytic activity for hydrogen generation from water/methanol solutions. Au-containing TiO 2 NTs presented higher hydrogen photogeneration activity than Au-free TiO 2 NTs.

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Visible light induced generation of hydrogen from H₂S in mixed semiconductor dispersions; improved efficiency through inter-particle electron transfer

Abstract: Electron transfer from the conduction band of CdS to that of Ti02 particles occurs in alkaline suspensions containing SHions and is exploited to improve the performance of a system that decomposes H2S with visible light.

Cited by 297 publications

References 2 publications

Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

Photosensitization of TiO2 P25 with CdS Nanoparticles for Photocatalytic Applications

Growth of TiO2 nanotube arrays with simultaneous Au nanoparticles impregnation: photocatalysts for hydrogen production

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Visible light induced generation of hydrogen from H2S in mixed semiconductor dispersions; improved efficiency through inter-particle electron transfer

Abstract: Electron transfer from the conduction band of CdS to that of Ti02 particles occurs in alkaline suspensions containing SHions and is exploited to improve the performance of a system that decomposes H2S with visible light.

Cited by 297 publications

References 2 publications

Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

Effects of the preparation method of the ternary CdS/TiO2/Pt hybrid photocatalysts on visible light-induced hydrogen production

Photosensitization of TiO2 P25 with CdS Nanoparticles for Photocatalytic Applications

Growth of TiO2 nanotube arrays with simultaneous Au nanoparticles impregnation: photocatalysts for hydrogen production

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Visible light induced generation of hydrogen from H₂S in mixed semiconductor dispersions; improved efficiency through inter-particle electron transfer