Enhanced density of negative fixed charges in Al2O3 layers on Si through a subsequent deposition of TiO2

SPIE Photonics Europe Pub Date : 2016-04-29 DOI:10.1117/12.2239183

T. Schneider, J. Ziegler, K. Kaufmann, K. Ilse, A. Sprafke, R. Wehrspohn

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Abstract

The passivation of silicon surfaces play an important role for achieving high-efficiency crystalline silicon solar cells. In this work, a stack system comprising of 20nm Al2O3 with a 22nm TiO2 topping layer was deposited on p-type Si using thermal atomic layer deposition (ALD) and was investigated regarding its passivation quality. Quasi-steady-state photo conductance (QSSPC) measurements reveal that the minority carrier lifetime at an injection density of 1015cm−3 increased from 1.10ms to 1.96ms after the deposition of TiO2, which shows that the deposition of TiO2 onto Al2O3 is capable of enhancing its passivation quality. Capacity voltage (CV) measurements show that the amount of negative charges in the dielectric layer has increased from -2.4·1012cm−2 to -6.3·1012cm−2 due to the deposition of TiO2. The location of the additional charges was analyzed in this work by etching the dielectric layer stack in several steps. After each step CV measurements were performed. It is found that the additional negative charges are created within the Al2O3 layer. Additionally, ToF-SIMS measurements were performed to check for diffusion processes within the Al2O3 layer.

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通过随后的TiO2沉积，增强了硅上Al2O3层中负电荷的密度

硅表面钝化是实现高效晶体硅太阳能电池的重要手段。本文采用热原子层沉积法(ALD)在p型Si上沉积了20nm Al2O3和22nm TiO2顶层的堆叠体系，并对其钝化质量进行了研究。准稳态光电导(QSSPC)测量结果表明，在注入密度为1015cm−3时，TiO2的少数载流子寿命从1.10ms增加到1.96ms，表明TiO2沉积在Al2O3上能够提高其钝化质量。容量电压(CV)测量表明，由于TiO2的沉积，介质层的负电荷量从-2.4·1012cm−2增加到-6.3·1012cm−2。本文通过对介电层叠加的蚀刻，分几个步骤分析了附加电荷的位置。每一步后进行CV测量。结果表明，在Al2O3层内产生了额外的负电荷。此外，进行ToF-SIMS测量以检查Al2O3层内的扩散过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE Photonics Europe

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