- 學位論文
量子點中間能帶之雙接面太陽能電池之數值分析
Numerical Study of Quantum Dot embedded intermediate band dual-junctions Solar Cells
摘要
中間能帶太陽能電池(IBSC)是一種新穎的想法,IBSC理論上的光電轉換效率(PCE)可以達到63.1%,主要由於它擁有三個頻段的吸收。一種實現IBSC的方法為將量子點(QD)材料置入單能隙的材料中形成QD/阻隔層的結構,當阻隔層夠狹窄,則能帶上會有三個能帶:導帶(CB),價帶(VB)和中間帶(IB)。 在這篇論文中,我們提出量子點嵌入雙接面太陽能電池的設計和數值研究。我們使用MATLAB®平台建立了電池模型。 模擬的方法包括使用光場傳輸矩陣模擬IBSC異質多層反射,自由電子捕捉機率和近似漂移擴散法計算可萃取到外部的電流。最後的模擬結果顯示在一個太陽強度下,理想的InGaP / GaAs+的InAs量子點雙接面電池的PCE可以達到46.76%。
並列摘要
Intermediate band solar cell (IBSC) is a novel idea prosed by Marti et al, and the theory claim the power conversion efficiency (PCE) can reach 63.1% due to its three bands absorption. A way to realize IBSC is introducing quantum dot (QD) layer into bulk material, and the QD/barrier layer would behave like to have three bands: conduction band (CB), valence band (VB) and intermediate band (IB). In this thesis, a quantum dot embedded dual-junction solar cell is proposed and studied numerically. We built up the device model by using Matlab® coding. The transmission matrix, collection probability and quasi-drift diffusion methods are applied to simulate the multiple reflection in the IBSC heterostructures. The final simulation shows the PCE for ideal InGaP/GaAs+InAs QD dual junction cell can reach 46.76% under one sun illumination.
參考文獻
延伸閱讀
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