Kebergantungan suhu dengan penggunaan tiub kuarza relau ke atas sel suria dwi-muka

Translated title of the contribution: Temperature dependences by using furnace quartz tube on bifacial solar cell

Research output: Contribution to journalArticle

Abstract

Solar cells are used to capture photons to generate energy. However, cell enhancements are needed to increase the amount of photon capture and also to increase cell efficiency. This involves the entire cell manufacturing process, where the annealing process is one of the most important steps needs to be optimized. Metallization printing using dual combustion is the most commonly used method in the production of commercial crystalline solar cells. Aluminum (Al) is used on the back of the cell as a back surface and rear connector while silver (Ag) is printed on the front as a collector grid. The dual combustion process for this component is important in determining the efficiency of the cells. Therefore, in this study, combustion treatment has been studied by using quartz tubes furnace (QTF) with the change of combustion temperature (700, 750, 800 and 850°C) as an attempt to obtain high efficiency and increase the shunting effect of Ag junction. As temperatures rise, the electric properties of the bifacial solar cells also increase. Temperature dependence shows high shunt resistances due to rapid cooling process after the combustion process and thus leading to fill factor and high cell efficiency.

Original languageMalay
Pages (from-to)789-795
Number of pages7
JournalSains Malaysiana
Volume47
Issue number4
DOIs
Publication statusPublished - 1 Apr 2018

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Quartz
Solar cells
Furnaces
Photons
Temperature
Cellular manufacturing
Metallizing
Printing
Silver
Electric properties
Annealing
Crystalline materials
Cooling
Aluminum

ASJC Scopus subject areas

  • General

Cite this

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title = "Kebergantungan suhu dengan penggunaan tiub kuarza relau ke atas sel suria dwi-muka",
abstract = "Solar cells are used to capture photons to generate energy. However, cell enhancements are needed to increase the amount of photon capture and also to increase cell efficiency. This involves the entire cell manufacturing process, where the annealing process is one of the most important steps needs to be optimized. Metallization printing using dual combustion is the most commonly used method in the production of commercial crystalline solar cells. Aluminum (Al) is used on the back of the cell as a back surface and rear connector while silver (Ag) is printed on the front as a collector grid. The dual combustion process for this component is important in determining the efficiency of the cells. Therefore, in this study, combustion treatment has been studied by using quartz tubes furnace (QTF) with the change of combustion temperature (700, 750, 800 and 850°C) as an attempt to obtain high efficiency and increase the shunting effect of Ag junction. As temperatures rise, the electric properties of the bifacial solar cells also increase. Temperature dependence shows high shunt resistances due to rapid cooling process after the combustion process and thus leading to fill factor and high cell efficiency.",
keywords = "Bifacial solar cells, Furnace quartz tube, Rear surface plane, Shunting junction, Temperature dependence",
author = "Sinin, {Nurul Aqidah Mohd} and Ibrahim, {Mohd. Adib} and Suhaila Sepeai and {Mat Teridi}, {Mohd Asri} and {Ahmad Ludin}, Norasikin and Kamaruzzaman Sopian and Zaidi, {Saleem H.}",
year = "2018",
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doi = "10.17576/jsm-2018-4704-18",
language = "Malay",
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journal = "Sains Malaysiana",
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publisher = "Penerbit Universiti Kebangsaan Malaysia",
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T1 - Kebergantungan suhu dengan penggunaan tiub kuarza relau ke atas sel suria dwi-muka

AU - Sinin, Nurul Aqidah Mohd

AU - Ibrahim, Mohd. Adib

AU - Sepeai, Suhaila

AU - Mat Teridi, Mohd Asri

AU - Ahmad Ludin, Norasikin

AU - Sopian, Kamaruzzaman

AU - Zaidi, Saleem H.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Solar cells are used to capture photons to generate energy. However, cell enhancements are needed to increase the amount of photon capture and also to increase cell efficiency. This involves the entire cell manufacturing process, where the annealing process is one of the most important steps needs to be optimized. Metallization printing using dual combustion is the most commonly used method in the production of commercial crystalline solar cells. Aluminum (Al) is used on the back of the cell as a back surface and rear connector while silver (Ag) is printed on the front as a collector grid. The dual combustion process for this component is important in determining the efficiency of the cells. Therefore, in this study, combustion treatment has been studied by using quartz tubes furnace (QTF) with the change of combustion temperature (700, 750, 800 and 850°C) as an attempt to obtain high efficiency and increase the shunting effect of Ag junction. As temperatures rise, the electric properties of the bifacial solar cells also increase. Temperature dependence shows high shunt resistances due to rapid cooling process after the combustion process and thus leading to fill factor and high cell efficiency.

AB - Solar cells are used to capture photons to generate energy. However, cell enhancements are needed to increase the amount of photon capture and also to increase cell efficiency. This involves the entire cell manufacturing process, where the annealing process is one of the most important steps needs to be optimized. Metallization printing using dual combustion is the most commonly used method in the production of commercial crystalline solar cells. Aluminum (Al) is used on the back of the cell as a back surface and rear connector while silver (Ag) is printed on the front as a collector grid. The dual combustion process for this component is important in determining the efficiency of the cells. Therefore, in this study, combustion treatment has been studied by using quartz tubes furnace (QTF) with the change of combustion temperature (700, 750, 800 and 850°C) as an attempt to obtain high efficiency and increase the shunting effect of Ag junction. As temperatures rise, the electric properties of the bifacial solar cells also increase. Temperature dependence shows high shunt resistances due to rapid cooling process after the combustion process and thus leading to fill factor and high cell efficiency.

KW - Bifacial solar cells

KW - Furnace quartz tube

KW - Rear surface plane

KW - Shunting junction

KW - Temperature dependence

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