Optical Properties of Sensitized Zinc Oxide Nanorods Electrochemically Prepared

Pereyra, Carlos; Marotti, Ricardo E.; Guerguerian, Gariné; Elhordoy, Fernando; Amy, Lucía; Gau, Daniel; Martı́n, Francisco; Leinen, D.; Ramos-Barrado, J.R.; Dalchiele, Enrique A.

doi:10.1166/eef.2013.1061

Cited by 11 publications

(7 citation statements)

References 40 publications

(72 reference statements)

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“…The red shift in the presence of Mn ions that has been observed in the absorption maxima is attributed to the decrease in the band gap energy, which makes it a better candidate for photocatalytic activities. Analysis of the optical quality of the ZnO nanoparticles is very important due to its wide band gap 3.37 eV and a large exciton binding energy 60 meV, which makes it a unique electronic and photonic semiconducting material [47,48]. The optical activity of Mn-doped ZnO nanostructures was analyzed by using absorption spectra (UV-visible), as shown in Figure 3a.…”

Section: Characterization Of Mn-doped Zno Nanostructuresmentioning

confidence: 99%

“…In other words, the same material can perform a variety of applications. Furthermore, the high solubility of ZnO [46], wide direct band gap energy of 3.37 eV, and large exciton binding energy of 60 meV [47,48] are properties that show improvements due to the large magnetic moment of the Mn atom. The solution combustion synthesis route was utilized in the present paper, as this is a time and energy-saving single-step facile process for the bulk production of nanoparticles [49,50].…”

Section: Introductionmentioning

confidence: 99%

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Manganese-Doped Zinc Oxide Nanostructures as Potential Scaffold for Photocatalytic and Fluorescence Sensing Applications

Thakur¹,

Sharma²,

Awasthi³

et al. 2020

Chemosensors

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Herein, we report the photocatalytic and fluorescence sensing applications of manganese-doped zinc oxide nanostructures synthesized by a solution combustion technique, using zinc nitrate as an oxidizer and urea as a fuel. The synthesized Mn-doped ZnO nanostructures have been analyzed in terms of their surface morphology, phase composition, elemental analysis, and optical properties with the help of scanning electron microscopy (SEM), X-ray diffraction (XRD), energy-dispersive X-ray spectroscopy (EDS), and UV-Visible (UV-Vis) spectroscopy. A careful observation of the SEM micrograph reveals that the synthesized material was porous and grown in very high density. Due to a well-defined porous structure, the Mn-doped ZnO nanostructures can be used for the detection of ciprofloxacin, which was found to exhibit a significantly low limit of detection (LOD) value i.e., 10.05 µM. The synthesized Mn-doped ZnO nanostructures have been further analyzed for interfering studies, which reveals that the synthesized sensor material possesses very good selectivity toward ciprofloxacin, as it detects selectively even in the presence of other molecules. The synthesized Mn-doped ZnO nanostructures have been further analyzed for the photodegradation of methyl orange (MO) dye. The experimental results reveal that Mn-doped ZnO behaves as an efficient photocatalyst. The 85% degradation of MO has been achieved in 75 min using 0.15 g of Mn-doped ZnO nanostructures. The observed results clearly confirmed that the synthesized Mn-dopedZnO nanostructures are a potential scaffold for the fabrication of sensitive and robust chemical sensors as well as an efficient photocatalyst.

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Section: Characterization Of Mn-doped Zno Nanostructuresmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Manganese-Doped Zinc Oxide Nanostructures as Potential Scaffold for Photocatalytic and Fluorescence Sensing Applications

Thakur¹,

Sharma²,

Awasthi³

et al. 2020

Chemosensors

View full text Add to dashboard Cite

show abstract

“…This enhancement is a consequence of an increase in the light scattering in the morphology of the samples. [71,76] For further studying the optical performance of the graded-composition stack samples the E g for each layer was obtained. In order to separate the transmittances of each individual layer from the transmittance of the stack of layers, the transmittance from the previous stack was used as reference.…”

Section: A C C E P T E D Accepted Manuscriptmentioning

confidence: 99%

Electrodeposition and characterization of composition-graded CdS x Se (1–x) multilayer thin film structures

Riveros

Báez

Ramírez

et al. 2016

Journal of Alloys and Compounds

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“…Eventually Lorentz-Lorenz approximation should be used instead of Bruggeman Eq. (1) [16] but a new parameter related to the porosity should be introduced [23]. Therefore, the choice of the correct solution for the corresponding equation will more complicated [24].…”

Section: Morphological Studymentioning

confidence: 99%

Optical absorption enhancement in sensitized ZnO nanorods for solar cells

et al. 2015

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RESUMENSe estudiaron las Propiedades Ópticas (PO) de Nanovarillas (NV) de ZnO sensibilizadas con diferentes semiconductores en nanoestructuras núcleo-corteza, comparándolas con las PO de NV de ZnO. Las medidas experimentales de Transmitancia y Reflectancia Difusa muestran un incremento en la absorción de luz en el espectro solar y la aparición de nuevos bordes de absorción (BA). Las medidas se compararon con simulaciones numéricas basadas en Aproximación de Medio Efectivo (Bruggeman). Las simulaciones corresponden con las medidas reproduciendo la dependencia con el contenido de sensibilizante. Para CdTe se observa un aumento de la absorción con la cantidad del sensibilizante, siendo los cambios mayores para iguales cambios en las fracciones de llenado respecto al CdS. Las mediciones experimentales muestran corrimientos en las posiciones de los BA entre 2.34 eV y 2.66 eV para CdS. Estos corrimientos no pueden explicarse sólo por cambios en el contenido de sensibilizante o por los efectos de confinamiento en las nanoestructuras. Similar es el comportamiento del BA de muestras sensibilizadas con CdTe que se ubica entre 1.31 eV y 1.36 eV, analizadas por Transmitancia, mientras que para las mismas muestras este BA se encuentra en 1.57 eV y 1.49 eV, respectivamente, según el método de Kubelka-Munk de la Reflectancia. Además se observa el BA de la banda split-off en 2.55 eV y 2.28 eV. Estos corrimientos pueden asociarse a un incremento de la absorción sub-bandgap debido al aumento del recorrido libre medio de la luz en la estructura.Palabras clave: Nanoestructuras, ZnO, Nanohilos, Celdas Solares ABSTRACTThe Optical Properties of ZnO Nanorods (NR) sensitized with different semiconductors in Core-Shell nanostructures were studied, comparing them with those of bare ZnO NR. Experimental measurements of Transmittance and Diffuse Reflectance show an increased light absorption at the solar spectrum and the appearances of new absorption edges (AE). The measurements are compared with numerical simulations based on Bruggeman Effective Medium Approximation. An increased absorption with the sensitizer content is observed. For similar changes in filling fractions, CdTe presents higher changes in absorption than CdS. Shifts in the AE are observed experimentally (e.g. between 2.34 eV and 2.66 eV for CdS). These shifts cannot be assigned to sensitizer content or confinement effects. A similar behaviour is observed for CdTe in which the AE measured by transmittance is between 1.31 eV and 1.36 eV, while the one obtained from Kubelka-Munk analysis of reflectance is, for the same samples, 1.57 eV and 1.49 eV, respectively. Moreover, the split-off AE is also observed at 2.55 eV and 2.28 eV. The observed large red-shifts could be associated with an enhancement of the subbandgap absorption due to an increase in the light free path at the core-shell nanostructure.PEREYRA, C.J.; FERRER, F.; GÓMEZ,C.; CAMPO, L.; MAROTTI, R.E.; MARTIN, F.; LEINEN, D.; BARRADO, J.R.; DALCHIE-LE, E.A. revista Matéria, v.20, n.3, pp. 747 -756, 2015. 748

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Optical Properties of Sensitized Zinc Oxide Nanorods Electrochemically Prepared

Cited by 11 publications

References 40 publications

Manganese-Doped Zinc Oxide Nanostructures as Potential Scaffold for Photocatalytic and Fluorescence Sensing Applications

Manganese-Doped Zinc Oxide Nanostructures as Potential Scaffold for Photocatalytic and Fluorescence Sensing Applications

Electrodeposition and characterization of composition-graded CdS x Se (1–x) multilayer thin film structures

Optical absorption enhancement in sensitized ZnO nanorods for solar cells

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