Photovoltaic and photocatalytic properties of bismuth oxyiodide-graphene nanocompositesElectronic supplementary information (ESI) available. See DOI: 10.1039/c8ra07360k

In this study, we evaluate the photovoltaic and photocatalytic properties of chemical vapor deposited bismuth oxyiodide (BiOI) and bismuth oxyiodide-graphene (BiOI-GR) nanocomposite thin films. The BiOI thin film has an average thickness of 574 nm and a bandgap of around 2 eV. The BiOI and BiOI-GR t...

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Hauptverfasser:	Mabuti, Levannie A, Manding, Ian Kenneth S, Mercado, Candy C
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description	In this study, we evaluate the photovoltaic and photocatalytic properties of chemical vapor deposited bismuth oxyiodide (BiOI) and bismuth oxyiodide-graphene (BiOI-GR) nanocomposite thin films. The BiOI thin film has an average thickness of 574 nm and a bandgap of around 2 eV. The BiOI and BiOI-GR thin films exhibited nanoflake morphology. It was found that addition of graphene increases absorbance by causing vertical growth of nanoflakes, imparting anti-reflectance and light trapping properties. The photocatalytic activities of the thin films were evaluated by examining methylene blue (MB) degradation under visible light irradiation. BiOI-GR degraded 56.42% of MB in two hours while BiOI degraded 44.16%. Afterwards, FTO\|BiOI\|graphite\|Al and FTO\|BiOI-GR\|graphite\|Al solar cell devices were fabricated with photocurrent density values of 2.0 μA cm −2 and 2.7 μA cm −2 , respectively. The improved properties of BiOI-GR are attributed to the anti-reflecting and light trapping properties of vertical BiOI-GR nanoflakes and the enhanced carrier separation due to graphene as an electron acceptor. BiOI nanoflakes grown by air atmosphere chemical vapor deposition showed increased photocatalytic activity when deposited on a graphene coated substrate.
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The photocatalytic activities of the thin films were evaluated by examining methylene blue (MB) degradation under visible light irradiation. BiOI-GR degraded 56.42% of MB in two hours while BiOI degraded 44.16%. Afterwards, FTO\|BiOI\|graphite\|Al and FTO\|BiOI-GR\|graphite\|Al solar cell devices were fabricated with photocurrent density values of 2.0 μA cm −2 and 2.7 μA cm −2 , respectively. The improved properties of BiOI-GR are attributed to the anti-reflecting and light trapping properties of vertical BiOI-GR nanoflakes and the enhanced carrier separation due to graphene as an electron acceptor. 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Afterwards, FTO\|BiOI\|graphite\|Al and FTO\|BiOI-GR\|graphite\|Al solar cell devices were fabricated with photocurrent density values of 2.0 μA cm −2 and 2.7 μA cm −2 , respectively. The improved properties of BiOI-GR are attributed to the anti-reflecting and light trapping properties of vertical BiOI-GR nanoflakes and the enhanced carrier separation due to graphene as an electron acceptor. BiOI nanoflakes grown by air atmosphere chemical vapor deposition showed increased photocatalytic activity when deposited on a graphene coated substrate.</abstract><doi>10.1039/c8ra07360k</doi><tpages>8</tpages></addata></record>
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title	Photovoltaic and photocatalytic properties of bismuth oxyiodide-graphene nanocompositesElectronic supplementary information (ESI) available. See DOI: 10.1039/c8ra07360k
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