期刊
SOLAR ENERGY
卷 239, 期 -, 页码 129-138出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.solener.2022.04.063
关键词
Solar cells; CdTe; Chlorine treatment; Air relative humidity; CdCl2; CHClF2
资金
- CONACYT-SENER (Mexico) LENERSE [254667]
- project FOMIX- Yucatan [123913]
- project CONACYT LAB-2009-01 [CB2012/178947]
- CONACYT-Mexico [254667]
- [2008-108160]
- [556160]
Chlorine treatment is an important process for achieving high-efficiency CdTe solar cells. The relative air humidity needs to be controlled to ensure the quality of photovoltaic devices.
Chlorine treatment is considered one of the most important processes to obtain high-efficiency CdTe solar cells. Such treatments are usually performed by exposing the devices to CdCl2 or other chlorine compounds and annealing them at high temperatures. Annealing processes were carried out in vacuum, inert atmosphere, reactive atmosphere, or air. The usage of ambient air has several advantages either technical or economical. However, the presence of moisture in the atmosphere may affect the treatment results or their reproducibility, especially in countries where the relative humidity (RH%) of the air could be an issue. However, despite many reports on CdTe Cl-treatments, the RH% effect on the finished solar-cell performance was not extensively reported. In this work, RH% was varied from 0% to 60%, comparing two different Cl treatments: CHClF2 (gas) and CdCl2 (in MeOH solution). It was observed that the RH% negatively affects the electrical properties of CHClF2- treated solar cells, while it could reduce the spatial uniformity using CdCl2. We conclude that relative air humidity is a parameter that should be controlled for producing high-quality CdTe-based PV devices.
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