K. B. Alaoui, Saida Laalioui, B. Ikken, A. Outzourhit
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引用次数: 0
摘要
采用等离子体增强化学气相沉积(PECVD)技术,在13.56 MHz等离子体激励频率下,在1x1 cm2的旭硝子玻璃衬底上,采用三种不同的掩膜结构和相同的工艺,制备了氢化非晶硅(a-S:H)薄膜。对其电性能进行了研究。“PIN-Simple金属掩膜+电极锡焊接面罩”配置,由废黜P,我和N层的旭硝子涂SnO2: F TCO,然后将金属屏蔽只的PVD沉积铝接触,使用特殊锡焊接准备手工超声波焊笔最后,大大提高了效率,FF Isc,找到一个最佳的细胞电参数Isc (mA) 14日,Isc马36,0846 V的挥发性有机化合物,FF为64.56%,效率为7.84%,这使我们能够找到一种有吸引力的解决方案,可以在没有激光划线的情况下降低接触电阻。
Effect of Three Different Masks Configuration on the Electrical Characteristics of Amorphous Silicon Solar Cells using Plasma Enhanced Chemical Vapor Deposition
Hydrogenated amorphous silicon (a-S:H) thin films were deposited by plasma enhanced chemical vapor deposition (PECVD) at 13.56 MHz plasma excitation frequency and DC sputtering PVD on 1x1 cm2 Asahi Glass substrate covered by SnO2:F TCO, using three different Mask configuration and the same recipe. The electrical properties were investigated. The “PIN-Simple Metal mask + Electrode Tin welding mask” configuration, which is prepared by deposing the P,I and N layers on an Asahi Glass coated with SnO2:F TCO, then placing the metal mask only for the PVD deposition of the Aluminum back contact, to use a special Tin welding prepared manually by an ultrasonic welding pen at the end, significantly improves the efficiency, the FF and the Isc, to find a best cell electrical parameters of Isc(mA) 14,36 mA for the Isc, 0,846 V for the VOC, 64.56 % for the FF and 7.84 % for the efficiency which allows us to find an attractive solution for reducing contact resistance without laser scribing.
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