Effect of Carbon Modification on the Electrical, Structural, and Optical Properties of<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" id="M1"><mml:mrow><mml:msub><mml:mtext>TiO</mml:mtext><mml:mtext>2</mml:mtext></mml:msub></mml:mrow></mml:math>Electrodes and Their Performance in Labscale Dye-Sensitized Solar Cells

Taziwa, Raymond; Meyer, Edson L.; Sideras‐Haddad, E.; Erasmus, Rudolph M.; Manikandan, E.; Mwakikunga, Bonex W.

doi:10.1155/2012/904323

Cited by 25 publications

(28 citation statements)

References 35 publications

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“…Modification of TiO 2 with metal and nonmetal elements has received much attention and Doped TiO 2 nanoparticles exhibit novel properties and according to impurity type, dopants improve the physical and optoelctronic paroperties of TiO 2 nanoparticles. For instance, K. Kaviyarasu et al 11 reported the fabrication, optical and microscopic studies of magnesium doped TiO 2 NCs .optical, structural, and electronic properties of carbon-modified titanium dioxide nanoparticles synthesized by ultrasonic nebulizer spray pyrolysis have been investigated by R. Taziwa et al 12 S. Ivanov et al 13 studied one-step synthesis of TiO 2 nanoparticles based on the interaction between thiourea and metatitanic acid and reported the photocatalytic activity of the doped SC-TiO 2 powders. TiO 2 nanoparticles in both powder and film form can be synthesized using various methods such as chemical vapor deposition 14 , chemical spray pyrolysis 15 , sol-gel technique 16 , hydrothermal treatment 17 , and arc discharge method 18 .…”

Section: Introductionmentioning

confidence: 99%

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Chenari

Seibel²,

Hauschild³

et al. 2016

Mat. Res.

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TiO 2 nanoparticleshave been synthesized by the sol-gel method using titanium alkoxide and isopropanolas a precursor. The structural properties and chemical composition of the TiO 2 nanoparticles were studied usingX-ray diffraction, scanning electron microscopy, and X-ray photoelectron spectroscopy.The X-ray powder diffraction pattern confirms that the particles are mainly composed of the anatase phase with the preferential orientation along [101] direction. The physical parameters such as strain, stress and energy density were investigated from the Williamson-Hall (W-H) plot assuming a uniform deformation model (UDM), and uniform deformation energy density model (UDEDM).The W-H analysis shows an anisotropic nature of the strain in nanopowders. The scanning electron microscopy image shows clear TiO 2 nanoparticles with particle sizes varying from 60 to 80nm. The results of mean particle size of TiO 2 nanoparticles show an inter correlation with the W-H analysis and SEM results. Our X-ray photoelectron spectroscopy spectra show that nearly a complete amount of titanium has reacted to TiO 2 .

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Section: Introductionmentioning

confidence: 99%

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Chenari

Seibel²,

Hauschild³

et al. 2016

Mat. Res.

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“…As previously reported, the calculated HOMO-LUMO gap energies decrease slowly from 4.5 to 4.1 eV as the adopted cluster size goes from (TiO 2 ) 16 to (TiO 2 ) 60 . [25] Qu and Kroes reported the use of the lowest-lying isomer of the (TiO 2 ) 9 cluster to refer to the surface electronic structure of TiO 2 .…”

Section: Computational Modeling and Detailsmentioning

confidence: 99%

“…[7] Recently, various reformative TiO 2 modification methods (such as doping non-metal anions at O sites and metal cations at Ti sites) have been developed to construct DSSCs with high efficiency. It has been revealed that non-metal doping (e.g., B, [8] C, [9] N, [10] S, [11] and I [12] ) can induce additional electronic states above the valence band edge of the original TiO 2 but with a very small effect on the CB edge composed of Ti 3d orbitals. [13] In addition, nitrogen as a dopant in TiO 2 was found to be harmful to the stability of batteries.…”

Section: Introductionmentioning

confidence: 99%

Enhancing Electron Injection in Dye‐Sensitized Solar Cells by Adopting W⁶⁺‐Doped TiO₂ Nanowires: A Theoretical Study

Wang

Bai

et al. 2015

Eur J Inorg Chem

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As a donor type dopant in titanium dioxide, W 6+ was found to move the conduction band (CB) edge of TiO 2 downward and also to influence the electron-injection process in dyesensitized solar cells (DSSCs). To investigate the electron-injection capabilities of DSSCs and to optimize their efficiency by W 6+ doping, the geometry and electronic properties of both free and adsorbed TiO 2 nanowires were investigated on the basis of extensive density functional theory calculations. A four-layer (TiO 2 ) 12 nanowire with 12 possible doping sites was set up, and the effect of W 6+ in different positions was analyzed. The results indicate that in the W 6+ -doped (TiO 2 ) 12 systems, the Ti-O W (O W = oxygen atom that is con-

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“…The reason is that these nano‐materials demonstrate desirable qualities such as excellently high responses, low cost, ease of miniaturisation and relatively fast recovery times at elevated temperatures. However, the high‐operating temperatures and poor selectivity of these metal oxides have led to new attempts to use carbon nano‐materials such as carbon nanotubes (CNTs) and graphene as alternatives in gas sensors, as well as hybrid materials of metal oxides and CNTs . However, to date these new carbon materials have not yet managed to find a significant industrial use.…”

Section: Introductionmentioning

confidence: 99%

Preferential adsorption of NH₃gas molecules on MWCNT defect sites probed usingin situRaman spectroscopy

Chimowa

Matsoso

Coville

et al. 2017

Physica Status Solidi (a)

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The preferential adsorption of NH 3 gas molecules on multiwalled carbon nanotubes (MWCNTs) was studied using in situ Raman spectroscopy. It was observed that the full widths at half maximum of the G band and the intensity ratio I 2D /I G of the MWCNTs decreased significantly during NH 3 gas adsorption at elevated temperatures. These observations were explained in terms of suppressed second-order-defect associated Raman vibrations resulting in a lower disorder Raman band due to ammonia adsorption on the defect sites. Another corresponding effect was a temporary increase in electron doping levels due to ammonia adsorption. This behaviour was accompanied by a drop of ca. 2% in the resistance of the MWCNTs corresponding to the occupancy of most of the defect sites. We suggest preferential adsorption of ammonia gas molecules on the thermally activated defect sites of MWCNTs as an appropriate gas sensing mechanism. This knowledge can be used to design and tune the selectivity of ammonia gas sensors.

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Effect of Carbon Modification on the Electrical, Structural, and Optical Properties ofTiO2Electrodes and Their Performance in Labscale Dye-Sensitized Solar Cells

Cited by 25 publications

References 35 publications

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Enhancing Electron Injection in Dye‐Sensitized Solar Cells by Adopting W⁶⁺‐Doped TiO₂ Nanowires: A Theoretical Study

Preferential adsorption of NH₃gas molecules on MWCNT defect sites probed usingin situRaman spectroscopy

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Effect of Carbon Modification on the Electrical, Structural, and Optical Properties ofTiO2Electrodes and Their Performance in Labscale Dye-Sensitized Solar Cells

Cited by 25 publications

References 35 publications

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Titanium Dioxide Nanoparticles: Synthesis, X-Ray Line Analysis and Chemical Composition Study

Enhancing Electron Injection in Dye‐Sensitized Solar Cells by Adopting W6+‐Doped TiO2 Nanowires: A Theoretical Study

Preferential adsorption of NH3gas molecules on MWCNT defect sites probed usingin situRaman spectroscopy

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Enhancing Electron Injection in Dye‐Sensitized Solar Cells by Adopting W⁶⁺‐Doped TiO₂ Nanowires: A Theoretical Study

Preferential adsorption of NH₃gas molecules on MWCNT defect sites probed usingin situRaman spectroscopy