乙醇浓度对光增强化学沉积ZnSe薄膜的影响

P. Geethanjali, T. Remadevi
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引用次数: 0

摘要

发现ZnSe纳米结构薄膜在各种光电应用中具有潜在的候选材料。它们在led,光伏电池缓冲层等方面得到了应用。样品是通过一种经济有效的改性化学方法制备的,即光增强化学沉积技术。纳米结构的ZnSe薄膜是在碱性水介质中沉积的。用355nm紫外灯照射室温下的沉积浴。沉积液由硫酸锌、亚硫酸钠、硒硫酸钠、水合肼和三乙乙醇胺(TEA)组成。薄膜均匀,附着力强。用不同浓度的乙醇在碱石灰玻璃衬底上沉积薄膜。所得样品在373 K下退火30分钟。采用XRD、UV-VIS-NIR分光光度计、SEM等技术对沉积膜进行了表征。结果表明,该薄膜本质上为六边形多晶结构,在溶液中加入乙醇可形成面心立方结构。溶液中乙醇的存在改变了薄膜的结构、光学和形态特性。所有样品在可见光区的光透射率均在70%以上,且基本均匀。乙醇浓度从2.74 eV增加到2.52 eV,光学带隙减小,晶粒尺寸增大。SEM图像显示,在沉积液中加入乙醇后,沉积液的多孔结构转变为纳米片状结构。发现ZnSe纳米结构薄膜在各种光电应用中具有潜在的候选材料。它们在led,光伏电池缓冲层等方面得到了应用。样品是通过一种经济有效的改性化学方法制备的,即光增强化学沉积技术。纳米结构的ZnSe薄膜是在碱性水介质中沉积的。用355nm紫外灯照射室温下的沉积浴。沉积液由硫酸锌、亚硫酸钠、硒硫酸钠、水合肼和三乙乙醇胺(TEA)组成。薄膜均匀,附着力强。用不同浓度的乙醇在碱石灰玻璃衬底上沉积薄膜。所得样品在373 K下退火30分钟。采用XRD、UV-VIS-NIR分光光度计、SEM等技术对沉积膜进行了表征。发现薄膜本质上是多晶的,具有六方晶。
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Effect of ethanol concentration in photo enhanced chemically deposited ZnSe thin films
ZnSe nanostructured thin films are found to be potential candidates in various optoelectronic applications. They find applications in LEDs, buffer layer of photovoltaic cell etc. The samples were fabricated by a cost effective modified chemical route namely photo enhanced chemical deposition technique. The deposition of nanostructured ZnSe thin films took place from aqueous alkaline medium. The deposition bath at room temperature was illuminated by a UV lamp irradiating at 355 nm. Deposition solution contained zinc sulphate, sodium sulphite, sodium selenosulphate, hydrazine hydrate and triethanol ammine (TEA). The films were uniform and highly adherent. The films were deposited on soda lime glass substrate with various concentrations of ethanol in the deposition bath. The resulting samples were annealed at 373 K for 30 minutes. The deposited films were characterised by various techniques like XRD, UV-VIS-NIR spectrophotometer, SEM etc. The films were found to be polycrystalline in nature with hexagonal structures and addition of ethanol in the bath resulted in face centered cubic structure. The presence of ethanol in the bath introduced changes in structural, optical, and morphological properties of the thin films. The optical transmission of all the samples were above 70% in the visible region and almost uniform. The optical band gap found to decrease with increase in ethanol concentration from 2.74 eV to 2.52 eV whereas the grain size found to increase. The SEM images showed a porous structure which changed to nano flake like structure on the addition of ethanol in to the deposition bath.ZnSe nanostructured thin films are found to be potential candidates in various optoelectronic applications. They find applications in LEDs, buffer layer of photovoltaic cell etc. The samples were fabricated by a cost effective modified chemical route namely photo enhanced chemical deposition technique. The deposition of nanostructured ZnSe thin films took place from aqueous alkaline medium. The deposition bath at room temperature was illuminated by a UV lamp irradiating at 355 nm. Deposition solution contained zinc sulphate, sodium sulphite, sodium selenosulphate, hydrazine hydrate and triethanol ammine (TEA). The films were uniform and highly adherent. The films were deposited on soda lime glass substrate with various concentrations of ethanol in the deposition bath. The resulting samples were annealed at 373 K for 30 minutes. The deposited films were characterised by various techniques like XRD, UV-VIS-NIR spectrophotometer, SEM etc. The films were found to be polycrystalline in nature with hexagonal st...
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