The research and fabrication of graphene quantum dots applied as the hole transporting layer in polymer solar cells
2019 ◽
Vol 2
(5)
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pp. 113-121
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In this report, we studied and fabricated graphene quantum dots by improved the Hummer method using NH3 reducing agent. The diameter of graphene quantum dots was approximately 6 nm, applied as the hole transport layer in organic solar cell to improve the quantum efficiency of solar cells. GQDs were very friendly with environment, made at low temperatures and might be dried into powder form and dissolved well in polar solvents. Graphene quantum dots with a 0D structure had the workfunction suistable for the conductive polymer which increased the short current (from 2.41 mA/cm2 to 4.38 mA/cm2) of polymer solar cells. They improved the performance significantly compared to conventional solar cells.
2017 ◽
Vol 9
(9)
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pp. 1616-1625
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2019 ◽
Vol 7
(15)
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pp. 13178-13185
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2013 ◽
Vol 15
(43)
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pp. 18973
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2018 ◽
Vol 29
(9)
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pp. 7820-7831
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2014 ◽
Vol 130
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pp. 599-604
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Keyword(s):
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2016 ◽
Vol 18
(5)
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pp. 3463-3471
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Keyword(s):
2015 ◽
Vol 132
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pp. 196-203
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Keyword(s):
2019 ◽
Vol 2
(9)
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pp. 6577-6583
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