Dynamic Calibration of Injection-Dependent Carrier Lifetime From Time-Resolved Photoluminescence of Thin-Film Photovoltaic Semiconductors

IF 7.6 2区材料科学 Q1 ENERGY & FUELS

Progress in Photovoltaics Pub Date : 2025-06-17 DOI:10.1002/pip.70000

Yan Zhu, Robert Lee Chin, Nursultan Mussakhanuly, Thorsten Trupke, Ziv Hameiri

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Abstract

Time-resolved photoluminescence is widely used to measure the charge carrier lifetime of thin film semiconductor materials. Nevertheless, the essential injection dependency of the carrier lifetime, which is hidden in these measurements, is often neglected. In this study, a novel dynamic calibration method is proposed to extract injection-dependent carrier lifetime from time-resolved photoluminescence measurements. The proposed method is based on the combination of transient and steady-state measurements. The measured relative photoluminescence signal is converted into excess carrier concentration; thus, the injection dependency of the carrier lifetime can be extracted. The method is demonstrated experimentally using a perovskite thin film. The obtained injection-dependent lifetime can be used to investigate the recombination mechanisms within the sample and to predict the potential current–voltage curve of solar cells made from the film. The proposed method significantly expands the capability of time-resolved photoluminescence and provides numerous applications for a wide range of emerging photovoltaic materials.

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薄膜光伏半导体时间分辨光致发光中注入相关载流子寿命的动态校准

时间分辨光致发光被广泛用于测量半导体薄膜材料的载流子寿命。然而，在这些测量中隐藏的载流子寿命的基本注入依赖性经常被忽略。在本研究中，提出了一种新的动态校准方法，从时间分辨光致发光测量中提取注射依赖的载流子寿命。该方法是基于瞬态和稳态测量相结合的方法。将测量到的相对光致发光信号转换为过量载流子浓度；这样，就可以提取出载体寿命的注射依赖性。用钙钛矿薄膜对该方法进行了实验验证。所得的注射依赖寿命可用于研究样品内的重组机制，并预测由该薄膜制成的太阳能电池的电位-电压曲线。所提出的方法极大地扩展了时间分辨光致发光的能力，并为广泛的新兴光伏材料提供了许多应用。

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来源期刊

Progress in Photovoltaics 工程技术-能源与燃料

CiteScore

18.10

自引率

7.50%

发文量

130

审稿时长

5.4 months

期刊介绍： Progress in Photovoltaics offers a prestigious forum for reporting advances in this rapidly developing technology, aiming to reach all interested professionals, researchers and energy policy-makers. The key criterion is that all papers submitted should report substantial “progress” in photovoltaics. Papers are encouraged that report substantial “progress” such as gains in independently certified solar cell efficiency, eligible for a new entry in the journal''s widely referenced Solar Cell Efficiency Tables. Examples of papers that will not be considered for publication are those that report development in materials without relation to data on cell performance, routine analysis, characterisation or modelling of cells or processing sequences, routine reports of system performance, improvements in electronic hardware design, or country programs, although invited papers may occasionally be solicited in these areas to capture accumulated “progress”.