Controlling Morphological Parameters of Anodized Titania Nanotubes for Optimized Solar Energy Applications

Haring, Andrew J.; Morris, Amanda J.; Hu, Michael Z.

doi:10.3390/ma5101890

Cited by 54 publications

(35 citation statements)

References 89 publications

(195 reference statements)

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“…The morphological structure of anodized TiO 2 nanotubes as well as their photocatalytic activity can be modified by changing preparation conditions, like anodization time, applied voltage, temperature, Ti foil roughness, calcination parameters and electrolyte composition including fluoride concentration, solvent, water content, pH, viscosity, conductivity, and organic additives [15,16]. According to Zhang et al [17] there are several generations of TiO 2 nanotubes produced via anodic oxidation.…”

Section: Introductionmentioning

confidence: 99%

Ordered TiO2 nanotubes: The effect of preparation parameters on the photocatalytic activity in air purification process

Nischk

Mazierski

Gazda

et al. 2014

Applied Catalysis B: Environmental

117

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Section: Introductionmentioning

confidence: 99%

Ordered TiO2 nanotubes: The effect of preparation parameters on the photocatalytic activity in air purification process

Nischk

Mazierski

Gazda

et al. 2014

Applied Catalysis B: Environmental

117

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“…Sol-gel techniques, hydrothermal and solvothermal methods with or without templates, and atomic layer deposition (ALD) into the template are among other methods used in the production of TiO 2 nanotubes [107][108][109][110][111]. However, tailoring the process conditions and the possibility to obtain strictly defined morphology of nanotubes, caused that electrochemical anodization of titanium substrate, is particularly actively reviewed and practically used [67,[112][113][114][115]. The anodic oxidation process includes electrode reactions and metal and oxygen ions diffusion.…”

Section: Titania Nanotubes (Tnts)mentioning

confidence: 99%

1D Titania Nanoarchitecture as Bioactive and Photoactive Coatings for Modern Implants: A Review

Radtke¹

2017

Application of Titanium Dioxide

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The research efforts in understanding the influence of TiO 2 1D nanoarchitecture structure and morphology on its biological and photocatalytic activity absorbed a lot of attention during last few years. Nowadays, the application of TiO 2 coatings in biomedical technologies (e.g., in modern implantology) requires the material of strictly defined structure and morphology, possessing both high biocompatibility, as well as antimicrobial properties. The presented review is a compilation of interdisciplinary knowledge about the application of 1D TiO 2 nanostructural coatings (nanotubes, nanofibres, nanowires) in biomedical technologies. The methods and parameters of their synthesis, and the physicochemical techniques used in the characterization of their structure and morphology, are discussed. Moreover, their ability to be applied as innovative coatings for modern implants is presented.

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“…[64][65][66][67][68] Nanotubes are formed as the pits are chemically dissolved into the oxide layer and deepen to form the 19 Surface photovoltage (SPV) curves of an n-type a-Fe 2 O 3 (haematite) layer deposited by sol-gel method before and after heat treatment. The enhanced SPV signals after annealing of the haematite layer correspond to an increased activity as a photoanode in water oxidation.…”

Section: Nanotechnologymentioning

confidence: 99%

Photosensitive oxide semiconductors for solar hydrogen fuel and water disinfection

Nowotny

Atanacio

Бак

et al. 2014

International Materials Reviews

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Hydrogen is expected to become a commonly used energy carrier on the global scale in the near future. However, hydrogen as a fuel is environmentally friendly only when generated from water using renewable energy, such as solar energy. Therefore, intensive research aims to develop a new generation of solar materials, which may be used for the production of hydrogen fuel from water using solar energy. The highly promising candidates for solar energy conversion are photosensitive oxide semiconductors (POSs), particularly the TiO 2 -based semiconductors, which may be used for converting solar energy into the chemical energy required for hydrogen generation from water, as well as water purification (removal of microbial agents and toxic contaminants from water). The present work considers an R&D strategy for developing TiO 2 -based systems capable of converting solar energy into the chemical energy via water oxidation. The effect of surface versus bulk semiconducting properties on the performance of POSs is considered in terms of partial and total water oxidation. The progress requires modification of the key performance-related properties (KPPs) in order to enhance the light-induced reactivity of the POSs with water. The most recent approach in the development of POSs with enhanced performance is deposition of metallic islets of different size and shape in order to induce a plasmonic effect. The development of high-performance POSs can be achieved through a multidisciplinary approach. It is shown that defect disorder has a critical effect on the lightinduced reactivity of POSs and the solar energy conversion. Therefore, defect engineering may be applied in the development of high-performance POSs. This work considers the hurdles in the development of high-performance POSs for specific applications and formulates the key questions that must be addressed to overcome these hurdles. The concepts developed for TiO 2 may be expanded for other metal oxides. AbbreviationsAES Auger electron spectrometry EC Electrical conductivity ECE Energy conversion efficiency EMF Electromotive force ERDA Elastic coil detection analysis FBP Flat band potential IPHE International partnership for hydrogen economy KPP Key performance-related property LEED Low energy electron diffraction LEIS Low energy ion scattering spectroscopy LSPR Localised surface plasmon resonance NRA Nuclear reaction analysis PALS Positron annihilation lifetime spectroscopy PEC Photoelectrochemical cell PIXE Particle-induced X-ray emission POS Photosensitive oxide semiconductor PSP Propagating surface plasmon PV Photovoltaic RBS Rutherford backscattering SES Sustainable energy systems SIMS Secondary ion mass spectrometry

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Controlling Morphological Parameters of Anodized Titania Nanotubes for Optimized Solar Energy Applications

Cited by 54 publications

References 89 publications

Ordered TiO2 nanotubes: The effect of preparation parameters on the photocatalytic activity in air purification process

Ordered TiO2 nanotubes: The effect of preparation parameters on the photocatalytic activity in air purification process

1D Titania Nanoarchitecture as Bioactive and Photoactive Coatings for Modern Implants: A Review

Photosensitive oxide semiconductors for solar hydrogen fuel and water disinfection

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