Micro-arc oxidization fabrication and ethanol sensing performance of Fe-doped TiO_2 thin films 被引量：4

Micro-arc oxidization fabrication and ethanol sensing performance of Fe-doped TiO_2 thin films

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摘要 In-situ pure TiO2 and Fe-doped TiO2 thin films were synthesized on Ti plates via the micro-arc oxidation （MAO） technique. The as-fabricated anatase TiO2 thin film-based conductometric sensors were employed to measure the gas sensitivity to ethanol. The results showed that Fe ions could be easily introduced into the MAO-TiO2 thin films by adding precursor K4（FeCN）6＇3H20 into the NaaPO4 electrolyte. The amount of doped Fe ions increased almost linearly with the concentration of Kg（FeCN）63H20 increasing, eventually affecting the ethanol sensing performances of TiO2 thin films. It was found that the enhanced sensor signals obtained had an optimal concentration of Fe dopant （1.28at%）, by which the maximal gas sensor signal to 1000 ppm ethanol was estimated to be 7.91 at 275℃. The response time was generally reduced by doped Fe ions, which could be ascribed to the increase of oxygen vacancies caused by Fe3＋ substituting for Ti4＋. In-situ pure TiO2 and Fe-doped TiO2 thin films were synthesized on Ti plates via the micro-arc oxidation （MAO） technique. The as-fabricated anatase TiO2 thin film-based conductometric sensors were employed to measure the gas sensitivity to ethanol. The results showed that Fe ions could be easily introduced into the MAO-TiO2 thin films by adding precursor K4（FeCN）6＇3H20 into the NaaPO4 electrolyte. The amount of doped Fe ions increased almost linearly with the concentration of Kg（FeCN）63H20 increasing, eventually affecting the ethanol sensing performances of TiO2 thin films. It was found that the enhanced sensor signals obtained had an optimal concentration of Fe dopant （1.28at%）, by which the maximal gas sensor signal to 1000 ppm ethanol was estimated to be 7.91 at 275℃. The response time was generally reduced by doped Fe ions, which could be ascribed to the increase of oxygen vacancies caused by Fe3＋ substituting for Ti4＋.

作者 Fu-jian Ren Xiao-bai Yu Yun-han Ling Jia-you Feng

机构地区 Laboratory of Advanced Materials

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2012年第5期461-466,共6页 矿物冶金与材料学报（英文版）

基金 supported by the National Basic Research Priorities Program of China (No.2007CB936601) the National Natural Science Foundation of China (Nos.10876017 and 91023037)

关键词 thin films titanium dioxide doping iron micro-arc oxidation ethanol sensors thin films titanium dioxide doping iron micro-arc oxidation ethanol sensors

分类号 O484 [理学—固体物理] TP212 [自动化与计算机技术—检测技术与自动化装置]

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International Journal of Minerals,Metallurgy and Materials

2012年第5期

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