Pure and Fe doped TiO2 thin films for MOSFET Technology

International Journal of Scientific Research in Physics and Applied Sciences Pub Date : 2019-02-28 DOI:10.26438/ijsrpas/v7i1.3541

Davinder Singh, A. Singhal, N. Saini

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Abstract

Sol-gel dip coating was used to obtain undoped and Fe doped TiO2 thin films deposited on ITO (indium tin oxide) coated glass substrate. These films were sintered at 500 ° C for 1 hour and were thoroughly characterized with respect to their crystal structure, phase transformation and elemental composition. The structural and dielectric properties of the films were characterized by XPS, TEM, and impedance analyzer. The elemental composition and the oxidation state of the elements in the films were investigated by XPS, titanium peaks were observed at 458.67eV, 457.45eV and 457.28eV that belongs to Ti +4 . The presence of Fe +3 in the samples is indicated by peaks found at 717.9eV and 709.41eV (2p1/2 and 2p3/2) state and at 743eV TEM studies confirm mostly the crystallite anatase and rutile phase for the Fe doped TiO2 films. Particle size decreased from 35 nm to 17 nm by 10-mol % iron doping. The density of interfacial states decreases with increase in iron concentration. XPS studies reveal that titanium exists in Ti +4 state in all the samples. Dielectric conductivity increased with increase in Fe concentration. Different types of polarization processes exist in different regions of frequency due to which the value of dielectric constant changes in pure as well as Fe doped TiO2 thin films. KeywordsSol-gel, anatase, rutile.

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用于MOSFET技术的纯和掺铁TiO2薄膜

采用溶胶-凝胶浸渍法在ITO(氧化铟锡)镀膜玻璃衬底上制备了未掺杂和掺铁的TiO2薄膜。这些薄膜在500°C下烧结1小时，并对其晶体结构、相变和元素组成进行了彻底的表征。利用XPS、TEM和阻抗分析仪对膜的结构和介电性能进行了表征。用XPS分析了膜中元素的组成和氧化态，在458.67eV、457.45eV和457.28eV处观察到钛峰，属于Ti +4。在717.9eV和709.41eV (2p1/2和2p3/2)状态下，样品中存在Fe +3，在743eV时，TEM研究证实了Fe掺杂TiO2薄膜主要为锐钛矿和金红石相。10-mol %的铁掺杂使颗粒尺寸从35 nm减小到17 nm。界面态密度随铁浓度的增加而减小。XPS研究表明，钛在所有样品中均以Ti +4态存在。电导率随铁浓度的增加而增加。在不同的频率区域存在不同类型的极化过程，从而导致纯和Fe掺杂TiO2薄膜的介电常数值发生变化。关键词:溶胶-凝胶;锐钛矿;金红石;

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International Journal of Scientific Research in Physics and Applied Sciences

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