Heat Treatment Effect on Crystalline Structure and Photoelectrochemical Properties of Anodic TiO<sub>2</sub> Nanotube Arrays Formed in Ethylene Glycol and Glycerol Based Electrolytes

Jarosz, Magdalena; Syrek, Karolina; Kapusta, Joanna; Mech, Justyna; Hnida, Katarzyna E.; Łojewski, Tomasz; Jaskuła, Marian

doi:10.1021/acs.jpcc.5b08403

Cited by 67 publications

(59 citation statements)

References 74 publications

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“…S2). As reported, the anatase-to-rutile phase transformation prefer to occurring at higher temperatures (Jarosz et al, 2015). The eroded {001} facets were due to the HF etching/ dissolution effect at high recalcination temperature (Zhang et al, 2011a).…”

Section: Morphological and Phase Compositional Properties Of Preparedsupporting

confidence: 59%

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Nie

Chen

et al. 2016

Water Research

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Section: Morphological and Phase Compositional Properties Of Preparedsupporting

confidence: 59%

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Nie

Chen

et al. 2016

Water Research

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“…TiO 2 is a polymorphic ceramic material, which could exist, in three well‐known structural forms: rutile (tetragonal), anatase (tetragonal), and brookite (orthorhombic). In the literature, the oxide layers elaborated by anodizing technique are mainly in an amorphous form, but can also contain some crystalline phases, depending on the anodizing parameters . The crystalline oxide phase can be the anatase, rutile, brookite, or a mixture of them, which can be obtained by anodizing under subsequent heat treatments.…”

Section: Resultsmentioning

confidence: 99%

Structural, Morphological, and Electrochemical Corrosion Properties of TiO₂ Formed on Ti6Al4V Alloys by Anodization

Atmani

Saoula

Abdi

et al. 2018

Crystal Research and Technology

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In this work, TiO2 layers are synthetized on Ti6Al4V alloy substrate by electrochemical anodizing process in fluoride‐containing alkaline electrolytes and under different applied voltages (10, 20, and 30 V). The scanning electron microscopy (SEM) reveals a nearly regular and vertical alignment of TiO2 nanotubes (≈80–100 nm) for specimen treated at 20 V and an agglomerate of particles with no particular orientations for those specimens treated at 10 and 30 V. The X‐ray diffraction (XRD) indicates the formation of mixed phases of anatase and rutile. Wettability measurements exhibit hydrophilic and superhydrophilic surfaces, according to the anodization parameters. The electrochemical impedance spectroscopy (EIS), performed in a simulated body fluid (Hank's solution), reveals an increase in corrosion resistance for a bias potential of 20 V (262 kΩ) owing to the evolution in TiO2‐layer thickness, and then decreases for higher anodizing potential values due to the chemical dissolution of the obtained layer.

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“…This result reveals the highly crystalline nature of the TiO 2 nanotubes in accord with the SAED pattern. The heat treatment can lead to a transition of TiO 2 nanotubes from the amorphous phase to a crystalline phase, which has been observed by Jarose et al [32]. …”

Section: Resultsmentioning

confidence: 84%

Fast diffusion of silver in TiO₂ nanotube arrays

Zhang¹,

Liu²,

Zhou³

et al. 2016

Beilstein J. Nanotechnol.

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SummaryUsing magnetron sputtering and heat treatment, Ag@TiO2 nanotubes are prepared. The effects of heat-treatment temperature and heating time on the evolution of Ag nanofilms on the surface of TiO2 nanotubes and microstructure of Ag nanofilms are investigated by X-ray diffraction, field emission scanning electron microscopy, and transmission electron microscopy. Ag atoms migrate mainly on the outmost surface of the TiO2 nanotubes, and fast diffusion of Ag atoms is observed. The diffusivity for the diffusion of Ag atoms on the outmost surface of the TiO2 nanotubes at 400 °C is 6.87 × 10−18 m2/s, which is three orders of magnitude larger than the diffusivities for the diffusion of Ag through amorphous TiO2 films. The activation energy for the diffusion of Ag atoms on the outmost surface of the TiO2 nanotubes in the temperature range of 300 to 500 °C is 157 kJ/mol, which is less than that for the lattice diffusion of Ag and larger than that for the grain boundary diffusion. The diffusion of Ag atoms leads to the formation of Ag nanocrystals on the outmost surface of TiO2 nanotubes. Probably there are hardly any Ag nanocrystals formed inside the TiO2 nanotubes through the migration of Ag.

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Heat Treatment Effect on Crystalline Structure and Photoelectrochemical Properties of Anodic TiO₂ Nanotube Arrays Formed in Ethylene Glycol and Glycerol Based Electrolytes

Cited by 67 publications

References 74 publications

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Structural, Morphological, and Electrochemical Corrosion Properties of TiO₂ Formed on Ti6Al4V Alloys by Anodization

Fast diffusion of silver in TiO₂ nanotube arrays

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Heat Treatment Effect on Crystalline Structure and Photoelectrochemical Properties of Anodic TiO2 Nanotube Arrays Formed in Ethylene Glycol and Glycerol Based Electrolytes

Cited by 67 publications

References 74 publications

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Enhanced simultaneous PEC eradication of bacteria and antibiotics by facilely fabricated high-activity {001} facets TiO2 mounted onto TiO2 nanotubular photoanode

Structural, Morphological, and Electrochemical Corrosion Properties of TiO2 Formed on Ti6Al4V Alloys by Anodization

Fast diffusion of silver in TiO2 nanotube arrays

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Product

Resources

About

Heat Treatment Effect on Crystalline Structure and Photoelectrochemical Properties of Anodic TiO₂ Nanotube Arrays Formed in Ethylene Glycol and Glycerol Based Electrolytes

Structural, Morphological, and Electrochemical Corrosion Properties of TiO₂ Formed on Ti6Al4V Alloys by Anodization

Fast diffusion of silver in TiO₂ nanotube arrays