Liquid phase deposition (LPD) of TiO2 thin films as photoanodes for cathodic protection of stainless steel

Lei, Cai-Xia; Zhou, Han; Feng, Zhihai; Zhu, Yanfeng; Du, Rong-Gui

doi:10.1016/j.jallcom.2011.11.005

Cited by 21 publications

(12 citation statements)

References 33 publications

(49 reference statements)

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“…(less than 100°C). Lei et al (2012) used (NH 4 ) 2 TiF 6 and H 3 BO 3 as precursor bath solutions. After drying naturally and annealing in air, TiO 2 is obtained.…”

Section: Fig2 Schematic Diagram Of Excitation Transfer Processes In mentioning

confidence: 99%

Research progress of TiO2 photocathodic protection to metals in marine environment

Wang

Nan

et al. 2020

J. Ocean. Limnol.

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Corrosion protection has become an important issue as the amount of infrastructure construction in marine environment increased. Photocathodic protection is a promising method to reduce the corrosion of metals, and titanium dioxide (TiO 2) is the most widely used photoanode. This review summarizes the progress in TiO 2 photogenerated protection in recent years. Diff erent types of semiconductors, including sulfi des, metals, metal oxides, polymers, and other materials, are used to design and modify TiO 2. The strategy to dramatically improve the effi ciency of photoactivity is proposed, and the mechanism is investigated in detail. Characterization methods are also introduced, including morphology testing, light absorption, photoelectrochemistry, and protected metal observation. This review aims to provide a comprehensive overview of TiO 2 development and guide photocathodic protection.

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“…(less than 100°C). Lei et al (2012) used (NH 4 ) 2 TiF 6 and H 3 BO 3 as precursor bath solutions. After drying naturally and annealing in air, TiO 2 is obtained.…”

Section: Fig2 Schematic Diagram Of Excitation Transfer Processes In mentioning

confidence: 99%

Research progress of TiO2 photocathodic protection to metals in marine environment

Wang

Nan

et al. 2020

J. Ocean. Limnol.

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“…Photoelectrochemical system for corrosion prevention [30,17] other as the corrosion cell at the cathode cell consisted of stainless steel, counter and reference electrodes. The two cell compartments were connected by an external circuit as shown in Fig.…”

Section: Figmentioning

confidence: 99%

“…Furthermore, the electrons will flow on the metal and shifting the metal potential to more negative values. The accumulation of electrons on the surface of the metal causing the metal can be protected from oxidation, so that corrosion prevention of metal can be achieved [30][31][32]. Analysis of corrosion prevention mechanism of TiO 2 nanotube material can be determined by computing QSAR method or molecular dynamic study.…”

Section: Effect Of Phmentioning

confidence: 99%

Effect of Anodizing Time and Annealing Temperature on Photoelectrochemical Properties of Anodized TiO<sub>2</sub> Nanotube for Corrosion Prevention Application

et al. 2017

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“…Wu et al reported formation of a SrTiO 3 film on an AlGaN/GaN wafer for gate dielectric in a metal oxide semiconductor high‐electron mobility transistor . Lei et al reported that a dense and crack‐free anatase TiO 2 film with thickness of 800 nm was formed by LPD at 353 K for 10.8 ks on indium tin oxide conductive glass as photo‐anodes for cathodic protection of SUS 304 stainless steel . Lee et al reported fabrication of photocatalytic TiO 2 films on stainless steel by LPD at 333 K using TiF 4 and H 3 BO 3.…”

Section: Introductionmentioning

confidence: 99%

Formation of oxide films for high‐capacitance aluminum electrolytic capacitor by liquid‐phase deposition and anodizing

Sakairi

Fujita

Nagata

2015

Surface & Interface Analysis

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Liquid phase deposition (LPD) treatment and anodizing were used to form oxide layer for a high-capacitance aluminum electrolytic capacitor. Formation of protective oxide layers and modification of LPD conditions make it possible to prolong the LPD duration and lead to the formation of TiO 2 and NaF deposits on aluminum. A titanium oxide / aluminum oxide mixed layer was formed by a combination process of LPD treatment and anodizing. The capacitance of the formed layer was about 300% higher than that of an anodic oxide film formed on electropolished aluminum. The structures and compositions of the films that were formed were determined by transmission electron microscopy, scanning electron microscopy, and Rutherford backscattering spectroscopy.

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Liquid phase deposition (LPD) of TiO2 thin films as photoanodes for cathodic protection of stainless steel

Cited by 21 publications

References 33 publications

Research progress of TiO2 photocathodic protection to metals in marine environment

Research progress of TiO2 photocathodic protection to metals in marine environment

Effect of Anodizing Time and Annealing Temperature on Photoelectrochemical Properties of Anodized TiO<sub>2</sub> Nanotube for Corrosion Prevention Application

Formation of oxide films for high‐capacitance aluminum electrolytic capacitor by liquid‐phase deposition and anodizing

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