# Detailed Performance Loss Analysis of Silicon Solar Cells using   High-Throughput Metrology Methods

**Authors:** Mohammad Jobayer Hossain, Geoffrey Gregory, Hardik Patel, Siyu Guo,, Eric J. Schneller, Andrew M. Gabor, Zhihao Yang, Adrienne L. Blum, Kristopher, O. Davis

arXiv: 1903.01985 · 2019-03-06

## TL;DR

This paper employs high-throughput, multi-faceted metrology techniques to analyze performance losses in 400 industrial silicon solar cells, revealing key correlations and insights for optimizing manufacturing processes.

## Contribution

It introduces novel, rapid measurement methods for detailed loss analysis in large-scale silicon solar cell production, enabling better understanding of loss mechanisms.

## Key findings

- Identified significant correlations between loss parameters.
- Quantified variance in performance loss across cells.
- Provided insights to optimize production line efficiency.

## Abstract

In this work, novel, high-throughput metrology methods are used to perform a detailed performance loss analysis of approximately 400 industrial crystalline silicon solar cells, all coming from the same production line. The characterization sequence includes a non-destructive transfer length method (TLM) measurement technique featuring circular TLM structures hidden within the busbar region of the cells. It also includes a very fast external quantum efficiency and reflectance measurement technique. More traditional measurements, like illuminated current-voltage, Suns-VOC, and photoluminescence imaging are also used to carry out the loss analysis. The variance of the individual loss parameters and their impact on cell performance are investigated and quantified for this large group of industrial solar cells. Some important correlations between the measured loss parameters are found. The nature of these distributions and correlations provide important insights about loss mechanisms in a cell and help prioritize efforts to optimize the performance of the production line.

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Source: https://tomesphere.com/paper/1903.01985