National Changhua University of Education Institutional Repository : Item 987654321/12334
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题名: 摻雜Cr及V對AZO透明導電膜及應用於染料敏化太陽能電池之抗化性研究
Study on the Chemical Stability of AZO TCO Thin Film Within Cr and V Dopants and Its Application on DSSCs
作者: 林義成
贡献者: 機電工程系
关键词: AZO薄膜;摻雜;化學穩定性;電化學腐蝕分析;DSSCs
AZO film;Dopping;Chemical stability;potentiostatic;DSSCs
日期: 2009-07
上传时间: 2012-07-05T07:23:38Z
出版者: 行政院國家科學委員會
摘要: 本研究主要目的在利用不同比例的摻雜Cr(chromium)及V(vanadium)元素進入AZO薄膜之中,探討添加不同比例之Cr及V兩種元素對AZO薄膜之光電特性影響;以及摻雜之AZO薄膜對蝕刻製程中化學穩定性之影響。首先藉由調變脈衝直流濺鍍功率、工作壓力、脈衝反轉時間、通氧量與偏壓等參數以得最佳之AZO薄膜製備條件;其次,以Cr及V金屬薄片置放於AZO靶材上並調變位置以改變摻雜量,並以所製得薄膜使用酸鹼溶液蝕刻與電化學腐蝕分析,探討摻雜對化學穩定性的影響,最後將實驗中製備之最佳化AZO薄膜應用於染料敏化太陽能電池上。研究中利用薄膜段差測試儀量測薄膜沉積厚度與蝕刻速率、X-ray繞射儀分析薄膜結晶性、四點探針及霍爾量測儀量測薄膜電性、紫外/可見光光譜儀量測薄膜於可見光穿透率、原子力顯微鏡量測薄膜表面粗糙度、掃描式電子顯微鏡觀察薄膜表面、X光能量分散光譜進行薄膜成份分析、高解析電子能譜儀觀察薄膜表面元素的化學性質及成分比例、二次離子質譜儀觀察薄膜內載子縱深分佈、日光模擬光源及電池效率量測系統量測DSSCs之能量轉換效率。
The purpose of this study is to investigate the effect of dopping different weight percent of chromium and vanadium in AZO films. That focuses on optical and electronic properties and chemical stability of doped AZO films. Sputtering parameters were adjusted by sputtering power, working pressure, reverse-time, bias voltage and oxygen flow ratio to obtain an optimum sputtering conditions. Cr and V sheets were used for dopping by changing their positions on the AZO target. Then the effects of optical and electronic properties and chemical stability of films after acid and alkali solution etching and potentiostatic. Finally, this study prepare optimal AZO films to apply to dye-sensitized solar cell. The etching rate, deposition rate, electric resistivity, crystalline, surface morphology, root mean square(Rms) roughness, chemical characteristic and componential proportion of surface element and distributive depth of carriers of the AZO film before/after the etching process were measured by α-step, four-point probe, x-ray diffraction(XRD), scanning electron microscopy (SEM), atomic force microscopy (AFM), The composition analysis by EDS, X-ray Photoelectron Spectrometer (XPS), Secondary ion mass spectroscopy (SIMS), respectively. Finally, efficiency of energy at DSSCs were measured by sun simulator and measurement system of solar cell efficiency.
關聯: 計畫編號:NSC97-2221-E018-001; 研究期間:2008/08-2009/07
显示于类别:[機電工程學系] 國科會計畫

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