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Sol-Gel Ta2 Os filmlerinin optik ve yapısal özellikleri

Optical and structural properties of sol-gel derived Ta2 Os films

  1. Tez No: 46574
  2. Yazar: FARHAD E. GHODSİ
  3. Danışmanlar: DOÇ.DR. FATMA TEPEHAN
  4. Tez Türü: Yüksek Lisans
  5. Konular: Fizik ve Fizik Mühendisliği, Physics and Physics Engineering
  6. Anahtar Kelimeler: Belirtilmemiş.
  7. Yıl: 1995
  8. Dil: Türkçe
  9. Üniversite: İstanbul Teknik Üniversitesi
  10. Enstitü: Fen Bilimleri Enstitüsü
  11. Ana Bilim Dalı: Belirtilmemiş.
  12. Bilim Dalı: Belirtilmemiş.
  13. Sayfa Sayısı: 98

Özet

ÖZET Bu çalışmadan amaç sol-gel yöntemi ile tantalum pentoksit (Tsl^Ds) ince filmleri oluşturmak, ve film hazırlama yöntemi (daldırma kaplama ve spin kaplama yöntemi) ve ısıl işlem sıcaklığına bağlı olarak elde edilen filmlerin optik ve yapısal özelliklerini kıyaslamaktadır. Spin kaplama yönteminde önce döndürme hızı 1500-3000 devir/ dak. arasında 5 farklı hızda bir seri film kaplandı, daha sonrada en uygun hız olarak belirlenen 2500 devir / dak. hızında 1, 3, ve 5 katlı film oluşturuldu. Daldırma yönteminde ise filmler, 107 mm / dak. hızında 1, 3, 5, ve 7 kat olarak hazırlandı. Bir sonraki aşamada her iki yöntem ile hazırlanan yaklaşık aynı kalınlıktaki filmlere 100-500 °C arasında 5 ayrı sıcaklıkta üçer saat ısıl işlem uygulandı. Filmlerin optik (kırma indisi, absorpsiyon katsayısı,...) ve yapısal özelliklerini belirlemek için UV- Visible ve FITR. spektrofotometre, SEM, ve x-ray difiaktometre kullanıldı. Filmlerin optik geçirgenlik- dalga boyu değişimlerinden yararlanarak optik sabitleri kaplama yöntemi, katman sayısı, ısıl işlem sıcaklığına bağlı olarak verildi. Elde edilen sonuçlan şöyle özetleyebiliriz : Spin hızı arttıkça filmlerin kalınlığı azalmakta ancak optik sabitleri artmaktadır. Her iki kaplama yönteminde de katman sayısının artması ile kalınlık ve optik sabitleri artmaktadır. Ayrıca ısıl işlem sıcaklığının artması ile kalınlığın azalmasına karşın, filmin optik sabitleri artmaktadır. Isıl işlem uygulamadan önce daldırma yönteminde hazırlanan filmlerin optik sabitleri spin yönteminkinden daha küçük iken ısıl işlem uyguladıktan sonra bu durum tersine dönmektedir. Bütün bu özelliklerde farklılık, filmin yapısındaki gözeneklerin sayısının değişmesinden kaynaklanmaktadır. Bu özellik SEM fotoğrafları ile kanıtlanmaktadır. Filmlerin enerji band aralığı kaplama yöntemi, kalınlık ve hızdan bağımsız olup, » 3.749 ± 0. 122 eV iken ısıl işlem sıcaklığa bağlı olarak 100 °C'de * 3.711 ± 0.103 eV'den 500 °C'de « 3.506 ± 0.073 e Va değişmektedir. VI

Özet (Çeviri)

SUMMARY OPTICAL AND STRUCTURAL PROPERTIES OF SOL-GEL DERIVED Ta2Os FDLMS Films and coatings represent the earliest commercial application of sol-gel technology. Thin films (normally < lum in thickness) formed by dipping and spinning use little in the way of raw materials and may be processed quickly without cracking, overcoming most of the disadvantages of sol-gel processing. In addition, large substrate may be accommodated and it is possible to uniformly coat both side of planar and axially symmetric substrates such as pipes, tubes, rods, and fibers not easily handled by more conventional coating processes. Table 1 shows a various application of the sol-gel thin films and coatings. Table 1. Application of films and coatings. optical Coatings Electronic Coatings Protective Coatings Other Coatings 1. Colored 2. Antireflectrve 3. Optoelectronic 4. Optical memory 1. Photo anodes 2. High-temperature superconductor 3. Conductive 4. Ferroelectric- Electro-optic 3. Dielectric films 1. Corrosion-resistant 2. Mechanical Planarization Scratch- & wear- resistant Strengthening Adhesion promoting 3. Passivation 1. Porous coatings 2. Miscellaneous " Certainly one of the most technologically important aspects of sol-gel processing is that, prior to gellation, the fluid sol or solution is ideal for preparing thin films by such common processes as dipping, spinning, or spraying. Compared to conventional thin film forming processes such as CVD, evaporation, or sputtering, sol-gel film formation requires considerably less equipment and is potentially less expensive; however the most important advantage of sol-gel processing over conventional coating methods is the ability to control precisely the rnicrostructure of the deposited film, i.e., the pore volume, pore size, and surface area. The disadvantages of sol-gel processing include the cost of the raw materials, shrinkage that accompanies drying and sintering, and processing times. The advantages and disadvantages of the sol-gel process are summarized in Table 2. VUTable 2. Some advantages and disadvantages of the sol-gel methods. Optical coatings alter the reflectance, transmission, or absorption of the substrate. In this manner buildings appear outwardly uniformly reflective, while light transmission is controlled in accordance with sun exposure to minimize summer cooling costs. Schott Glaswerke produce million of square meters of optical coatings on glass each year. In addition to reflective or colored coatings, oxide coatings on glass and silicon substrates (single layers, multilayers, and porous layers ) have been used extensively as antireflective (AR) surfaces in solar-related applications to improve device efficiency and as laser-damage-resistant AR coatings for laser optics, especially in inertial confinement fusion application. Tantalum pentoxide films have been extensively used as the dielectrics of thin film capacitors, insulators, antireftection coating materials and optical dielectric waveguides. The tantalum pentaoxide films are quite durable chemically and mechanically with a very low optical attenuation loss and a relatively high refractive index, so they have been considered to be one of the best materials for the fabrication of optical waveguides and lenses. Tantalum pentaoxide films can be deposited by several techniques, such as, anodization and thermal oxidation from a tantalum (or tantalum oxide) target, chemical vapour deposition, reactive sputtering and sol-gel- drived. In this work, the optical and structural properties of sol-gel-derived Ta205 thin films formed on Coming 7059 glass substrates have been investigated. The samples have been prepared by spinnig and dipping processes for assigning different properties of Ta2Os thin films in three stapes, 1. The samples have been deposited by spin coating method with 1500, 2000, 2500, 3000 rpm spin speed, in three layers, and with 2500 rpm spin speed in 1, 3, 5 layers. vtu2. The samples have been deposited by dip coating method with 107 mm / min. pulling rate, in 1, 3, 5, and 7 layers. 3. The samples have been deposited by spin coating method with 2500 ipm spin speed and dip coating method with 107 mm / min. pulling rate, in 5 layers which had approximately similar thickness (d^a, = 494 nm, d^ = 516 nm), and applied heat treatment in 100, 300, 500 °C temperature. For studying the optical and structural properties of TazOs thin films the samples have been measured in different way such as following, 1. For determining composition in the film, FTIR (Fourier Transform Infra Red) Spectroscopy analysis of a film prepared on a crystalline NaCl wafer has been made. 2. For determining the optical constants (refractive index, absorption coefficient, etc.) of Ta205 thin films, UV-Visible Photospectroscopy analysis of Ta2Os thin films have been made. 3. For studying the surface's topography of Ta2Os thin films Scanning Electron Microscopy (SEM) has been used. In addition, for determining the composition of the samples, x-ray quantitative analysis has been made. 4. For determining the structural properties of TaaOs thin films x-ray difractometer has been used. In this method the qualitative analysis has been made. In thİB work as previously mentioned the optical and structural properties of Ta2Os thin films have been examined in three stapes. For calculating these properties and the experimental data a method suggested by SWANEPOEL, has been used The results of these calculations and experiments in the first and second stapes can be explained as following, Refractive index of T&^Ds thin film increases with increasing spin speed in spin coating method. For about 550 nm wavelength, with 2000, 2500, and 3000 rpm spin speed refractive index was found as 1.742, 1.758, and 1.782 respectively. Refractive index of films increases with increasing the number of deposited layers in both methods. In spinning process, for about 550 nm wavelength, with 3 and 5 layers refractive indices were found as 1.758 and 1.783 respectively. In dipping process, for the same wavelength, and with 5 and 7 layers, refractive indices were found as 1.706 and 1.717 respectively. Refractive index of thin films in the spin coating method is higher than the dip coating method for approximately the same film thickness (dgPjn=494nm,d

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