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題 名 | 電荷產生速率對p-i-n 結構薄膜非晶矽太陽能電池特性的影響=The Effects of the Photo-generation Carrier Distribution on the Properties of Amorphous Si PIN Solar Cell |
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作 者 | 陳昶憲; 趙家宏; 賴志明; | 書刊名 | 資訊電子學刊 |
卷 期 | 5:2 2012.07[民101.07] |
頁 次 | 頁43-50 |
分類號 | 468.1 |
關鍵詞 | 非晶矽; 太陽能電池; 光學導納法; 光生載子分佈; Amorphous silicon; Solar cell; Optical admittance method; Photo-generation carrier distribution; |
語 文 | 中文(Chinese) |
中文摘要 | 本論文分析p-i-n 結構薄膜非晶矽太陽能電池的性能,以光學導納法計算太陽能電池i 層中的光電子數量及光限電流,並結合電荷傳導理論計算其性能。我們以三種不同的電荷產生速率與光學分析所產生的速率分佈比對 ,得知G0+Ae-αx 較符合於光學分析所得的電荷分佈。並觀察電荷傳導方程式在三種不同分佈的電荷產生率下所造成的效應。結果顯示,當電荷產生速率分佈為定值時,i 層厚度為400nm 電池轉換效率最大值7.07%,之後隨著i 層厚度的增加而迅速的下降;而當速率分佈為G0+Ae-αx 則在i 層厚度為600nm 時轉換效率最大為7.07%。從中可以得知電荷產生速率分佈的改變確實對太陽能電池的特性有顯著的影響,因此設計p-i-n 結構的薄膜電池必須了解電荷產生速率的形式,並依據此形式進行設計得到最佳的光電轉換效率。 |
英文摘要 | In this paper, theoretical efficiencies for amorphous Si PIN solar cell are presented by solving the carrier transport equations including optical properties of the cell. Using the optical admittance method including the interference effect, the distribution of the photo-generation carriers in the solar cell under air mass 1.5 global irradiance spectra were obtained numerically. And the carrier distribution in i-layer of solar cell could be treated approximately as a function of exponential decay with a constant bias. In order to study the effects of the carrier generation distribution, three different kinds of distributions were used in the calculation. According to the simulation, the maximum efficiency for constant carrier generation is 7.07% and the optimum i-layer thickness is 400 nm. However, for the G0+Ae-αx carrier generation distribution,the efficiency and optimum thickness are 7.07% and 600 nm, respectively. These results show that the distribution of the photo-generation carrier play an important role on the properties of the PIN solar cell and is a key factor for designing the optimum performance structure. |
本系統中英文摘要資訊取自各篇刊載內容。