Effect of some operational parameters on the hydrogen generation efficiency of Ni-ZnO/PANI composite under visible-light irradiation

UV–vis spectra of PANI, ZnO, Ni0.01Zn0.99O, Ni0.01Zn0.99O/PANI3 and Ni0.1Zn0.9O/PANI10 nanocomposites. [Display omitted] •NixZn1−xO/PANIy photocatalysts are synthesized by the impregnation method.•Ni2+ amount control the morphology of ZnO and enhances its photoactivity.•Both Ni2+ and PANI extend the...

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Veröffentlicht in:	Materials research bulletin 2015-10, Vol.70, p.530-538
Hauptverfasser:	Nsib, Mohamed Faouzi, Naffati, Naima, Rayes, Ali, Moussa, Noomen, Houas, Ammar
Format:	Artikel
Sprache:	eng
Schlagworte:	ABSORPTION Additives DOPED MATERIALS EVOLUTION HYDROGEN Hydrogen production IMPREGNATION INTERSTITIAL HYDROGEN GENERATION NANOCOMPOSITES NANOSCIENCE AND NANOTECHNOLOGY Ni doped ZnO NICKEL ADDITIONS Photocatalysis PHOTOPRODUCTION Polyaniline SCANNING ELECTRON MICROSCOPY VALENCE VISIBLE RADIATION VISIBLE SPECTRA WATER X-RAY DIFFRACTION ZINC OXIDES
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description	UV–vis spectra of PANI, ZnO, Ni0.01Zn0.99O, Ni0.01Zn0.99O/PANI3 and Ni0.1Zn0.9O/PANI10 nanocomposites. [Display omitted] •NixZn1−xO/PANIy photocatalysts are synthesized by the impregnation method.•Ni2+ amount control the morphology of ZnO and enhances its photoactivity.•Both Ni2+ and PANI extend the light absorption of ZnO toward the visible region.•Both Ni2+ and PANI enhance the electron–hole separation. NixZn1−xO/Polyaniline hybrid photocatalysts are synthesized and used for the experiments of hydrogen production from water-splitting under visible irradiation. XRD, UV–vis DRS and SEM are used to characterize the prepared materials. It is shown that the Ni2+ amount doped into ZnO controls its morphology and enhances its photoactivity for H2 generation. Polyaniline (PANI) is shown to sensitize ZnO and to extend its light absorption toward the visible region. The hybrid photocatalyst with 10mol% Ni2+ and 10wt.% PANI shows the maximum photocatalytic H2 production for one hour of visible irradiation: ∼558μmol while only ∼178μmol in the presence of pure ZnO. Additives like sacrificial electron donors and carbonate salts are found to play a key role in the improvement of H2 evolution. Thus, the hydrogen photoproduction efficiency increases in the order: thiosulfate>sulfide>propanol and HCO3−>CO32−.
doi_str_mv	10.1016/j.materresbull.2015.04.067
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[Display omitted] •NixZn1−xO/PANIy photocatalysts are synthesized by the impregnation method.•Ni2+ amount control the morphology of ZnO and enhances its photoactivity.•Both Ni2+ and PANI extend the light absorption of ZnO toward the visible region.•Both Ni2+ and PANI enhance the electron–hole separation. NixZn1−xO/Polyaniline hybrid photocatalysts are synthesized and used for the experiments of hydrogen production from water-splitting under visible irradiation. XRD, UV–vis DRS and SEM are used to characterize the prepared materials. It is shown that the Ni2+ amount doped into ZnO controls its morphology and enhances its photoactivity for H2 generation. Polyaniline (PANI) is shown to sensitize ZnO and to extend its light absorption toward the visible region. The hybrid photocatalyst with 10mol% Ni2+ and 10wt.% PANI shows the maximum photocatalytic H2 production for one hour of visible irradiation: ∼558μmol while only ∼178μmol in the presence of pure ZnO. 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[Display omitted] •NixZn1−xO/PANIy photocatalysts are synthesized by the impregnation method.•Ni2+ amount control the morphology of ZnO and enhances its photoactivity.•Both Ni2+ and PANI extend the light absorption of ZnO toward the visible region.•Both Ni2+ and PANI enhance the electron–hole separation. NixZn1−xO/Polyaniline hybrid photocatalysts are synthesized and used for the experiments of hydrogen production from water-splitting under visible irradiation. XRD, UV–vis DRS and SEM are used to characterize the prepared materials. It is shown that the Ni2+ amount doped into ZnO controls its morphology and enhances its photoactivity for H2 generation. Polyaniline (PANI) is shown to sensitize ZnO and to extend its light absorption toward the visible region. The hybrid photocatalyst with 10mol% Ni2+ and 10wt.% PANI shows the maximum photocatalytic H2 production for one hour of visible irradiation: ∼558μmol while only ∼178μmol in the presence of pure ZnO. Additives like sacrificial electron donors and carbonate salts are found to play a key role in the improvement of H2 evolution. 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subjects	ABSORPTION Additives DOPED MATERIALS EVOLUTION HYDROGEN Hydrogen production IMPREGNATION INTERSTITIAL HYDROGEN GENERATION NANOCOMPOSITES NANOSCIENCE AND NANOTECHNOLOGY Ni doped ZnO NICKEL ADDITIONS Photocatalysis PHOTOPRODUCTION Polyaniline SCANNING ELECTRON MICROSCOPY VALENCE VISIBLE RADIATION VISIBLE SPECTRA WATER X-RAY DIFFRACTION ZINC OXIDES
title	Effect of some operational parameters on the hydrogen generation efficiency of Ni-ZnO/PANI composite under visible-light irradiation
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