標題: N-GaAs/PEDOT:PSS 混和式太陽能電池中的接面形成與傳輸機制
Junction Formation and Transport Mechanism in Hybrid n-GaAs/PEDOT:PSS Solar Cells
作者: 張凱富
孫建文
Chang, Kai-Fu
Sun, Kien-Wen
應用化學系碩博士班
關鍵字: 砷化鎵;接面形成;傳輸機制;混和式太陽能電池;gallium arsenide;junction formation;transport mechanism;hybrid solar cells;PEDOT:PSS
公開日期: 2016
摘要: 近年來,混和型太陽能電池結合了有機高分子及無機半導體材料,因其較為簡單、不需經高溫的製程且可降低製程成本而受到學者們的關注。本論文藉由改變砷化鎵基板的摻雜濃度,研究n-GaAs/PEDOT:PSS 混和型太陽能電池的接面特性。 我們量測使用不同摻雜濃度砷化鎵基板所製成元件的光電流、暗飽和電流及內建電場,以及利用紫外光電子能譜儀量測高分子的價帶邊緣及功函數,建構出n-GaAs/EDOT:PSS混和式接面的能階圖,且分別用PN接面與蕭特基接面模型去分析元件的電流-電壓特性,從數據中發現到其電流傳輸是由多數載子的熱離子放射所主導,推測其n-GaAs與PEDOT:PSS之間的接面應屬於蕭特基接面。
In recent years the combination of inorganic semiconductor and organic polymer materials, usually named hybrid, has attracted a lot of attention due to simple and low temperature fabrication processes with relatively inexpensive cost. In this study, we investigated the interface junction formation properties of n-GaAs/PEDOT:PSS hybrid solar cells on planar substrates by varying the GaAs substrates doping concentrations. The photocurrent, dark saturation current and build-in potential at this hybrid interface are measured by varying n-GaAs doping concentrations. The work function and valence band edge of the polymer are extracted from ultraviolet photoelectron spectroscopy to construct the band diagram of the hybrid n-GaAs/PEDOT:PSS junction. The current-voltage characteristics were analyzed by using pn-junction and Schottky models. The experimental evidences suggested that the interface between n-GaAs and PEDOT:PSS is most likely a Schottky type junction and the current transport is governed by thermionic emission of majority carriers over a barrier.
URI: http://etd.lib.nctu.edu.tw/cdrfb3/record/nctu/#GT070352546
http://hdl.handle.net/11536/139433
顯示於類別:畢業論文