Impact of the contacting scheme on I-V measurements of metallization-free silicon heterojunction solar cells

IF 1.9 Q3 PHYSICS, APPLIED EPJ Photovoltaics Pub Date : 2023-01-01 DOI:10.1051/epjpv/2023009
Malte Brinkmann, F. Haase, K. Bothe, K. Bittkau, A. Lambertz, Weiyuan Duan, K. Ding, Hans-Peter Sperlich, A. Waltinger, H. Schulte‐Huxel
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Abstract

I‑V measurements are sensitive to the number and positioning of current and voltage sensing contacts. For busbarless solar cells, measurement setups have been developed using current collection wires and separate voltage sense contacts. Placing the latter at a defined position enables a grid resistance neglecting measurement and thus I‑V characteristics independent from the contacting system. This technique has been developed for solar cells having a finger grid and good conductivity in the direction of the fingers. The optimal position of the sense contact in case of finger-free silicon heterojunction solar cells has not yet been studied. Here, the lateral charge carrier transport occurs in a transparent conductive oxide layer resulting in a higher lateral resistance. We perform finite difference method simulations of HJT solar cells without front metallization to investigate the impact of high lateral resistances on the I-V measurement of solar cells. We show the high sensitivity on the number of used wires for contacting as well as the position of the sense contact for the voltage measurement. Using the simulations, we are able to explain the high difference of up to 7.5% in fill factor measurements of metal free solar cells with varying TCO sheet resistances between two measurement systems using different contacting setups. We propose a method to compensate for the contacting system to achieve a grid-resistance neglecting measurement with both systems allowing a reduction of the FF difference to below 1.5%.
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接触方式对无金属化硅异质结太阳能电池I-V测量的影响
I - V测量对电流和电压感应触点的数量和位置很敏感。对于无母线太阳能电池,已经开发了使用电流收集线和单独电压检测触点的测量装置。将后者放置在定义的位置,可以忽略测量栅格电阻,从而独立于接触系统的I - V特性。这项技术已经发展为具有手指网格和在手指方向上具有良好导电性的太阳能电池。在无指硅异质结太阳能电池中,感应接触的最佳位置尚未得到研究。在这里,横向电荷载流子传输发生在透明导电氧化层中,导致更高的横向电阻。本文采用有限差分方法模拟了未正面金属化的HJT太阳能电池,以研究高横向电阻对太阳能电池I-V测量的影响。我们展示了用于接触的电线数量的高灵敏度以及用于电压测量的感测触点的位置。通过模拟,我们能够解释在使用不同接触设置的两种测量系统之间,具有不同TCO片电阻的无金属太阳能电池的填充因子测量值高达7.5%的高差异。我们提出了一种补偿接触系统的方法,以实现两个系统的网格电阻忽略测量,从而将FF差降低到1.5%以下。
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来源期刊
EPJ Photovoltaics
EPJ Photovoltaics PHYSICS, APPLIED-
CiteScore
2.30
自引率
4.00%
发文量
15
审稿时长
8 weeks
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