碱性条件下二氧化钛光电涂层的腐蚀机理

IF 5.3 2区材料科学 Q1 MATERIALS SCIENCE, COATINGS & FILMS Surface & Coatings Technology Pub Date : 2024-10-30 DOI:10.1016/j.surfcoat.2024.131546

Lauri Palmolahti , Jussi Hämelahti , Markku Hannula , Harri Ali-Löytty , Mika Valden

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引用次数: 0

摘要

二氧化钛的晶体结构对光电化学条件下使用的二氧化钛保护薄膜的化学稳定性有重要影响。通过改变原子层沉积法的沉积温度和沉积后的退火处理，可以获得无定形结构、微晶锐钛矿结构和富含 Ti3+ 的纳米晶金红石结构。本文通过 SEM、XPS、EIS 和椭偏仪研究了在 Si（100）上 ALD 生长的 TiO2 薄膜在碱性溶液中的化学稳定性和失效机制。结果表明，富含 Ti3+ 的导电纳米晶金红石薄膜化学性质稳定，而其他样品在 1.0 M NaOH 溶液中测试的前 10 小时内就失效了。在 0.1 M NaOH 溶液中进行更详细的分析后发现，锐钛矿样品在 NaOH 溶液通过晶界渗入 TiO2 后突然失效，导致硅基底溶解。相比之下，无定形二氧化钛薄膜在 NaOH 溶液渗入二氧化钛薄膜后会逐渐失效，使其膨胀至薄膜初始厚度的三倍。

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Corrosion mechanisms of TiO2 photoelectrode coatings in alkaline conditions

The crystal structure of TiO₂ has a significant impact on the chemical stability of the protective TiO₂ thin films used in photoelectrochemical conditions. By altering the deposition temperature of the atomic layer deposition method, and by post-deposition annealing treatments, amorphous, microcrystalline anatase, and Ti³⁺-rich nanocrystalline rutile structures can be achieved. In this paper, the chemical stability in alkaline solution and failure mechanisms of ALD grown TiO₂ thin films on Si(100) were studied by SEM, XPS, EIS, and ellipsometry. The results showed that the electrically conductive Ti³⁺-rich nanocrystalline rutile thin film was chemically stable, whereas other samples failed within the first 10 h of the test in 1.0 M NaOH. More detailed analysis in 0.1 M NaOH revealed that the anatase sample experienced sudden failure after NaOH solution penetrated the TiO₂ via grain boundaries, causing the Si substrate to dissolve. In contrast, the amorphous TiO₂ films had more gradual failure as the NaOH solution permeated the TiO₂ film, causing it to swell up to three times the initial thickness of the film.

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来源期刊

Surface & Coatings Technology 工程技术-材料科学：膜

CiteScore

10.00

自引率

11.10%

发文量

921

审稿时长

19 days

期刊介绍： Surface and Coatings Technology is an international archival journal publishing scientific papers on significant developments in surface and interface engineering to modify and improve the surface properties of materials for protection in demanding contact conditions or aggressive environments, or for enhanced functional performance. Contributions range from original scientific articles concerned with fundamental and applied aspects of research or direct applications of metallic, inorganic, organic and composite coatings, to invited reviews of current technology in specific areas. Papers submitted to this journal are expected to be in line with the following aspects in processes, and properties/performance: A. Processes: Physical and chemical vapour deposition techniques, thermal and plasma spraying, surface modification by directed energy techniques such as ion, electron and laser beams, thermo-chemical treatment, wet chemical and electrochemical processes such as plating, sol-gel coating, anodization, plasma electrolytic oxidation, etc., but excluding painting. B. Properties/performance: friction performance, wear resistance (e.g., abrasion, erosion, fretting, etc), corrosion and oxidation resistance, thermal protection, diffusion resistance, hydrophilicity/hydrophobicity, and properties relevant to smart materials behaviour and enhanced multifunctional performance for environmental, energy and medical applications, but excluding device aspects.