Presentation	2023-10-26 Improvement of non-fullerene organic solar cells by using the localized surface plasmon resonance effect of metal nanoparticles Yuting Miao, Sachiko Jonai, Kazunari Shinbo, Keizo Kato, Akira Baba,
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Abstract(in Japanese)	(See Japanese page)
Abstract(in English)	Organic Solar Cells (OSCs) based on the bulk heterojunction (BHJ) structure have many potential advantages such as flexibility, low cost, and ease of fabrication. However, OSCs also exhibit intrinsic disadvantages such as weak light absorption, low mobility and charge recombination, which cause low power conversion efficiency (PCE). The metal nanoparticles have been widely used in high-efficiency organic solar cells (OSCs) to enhance the performance of OSCs. In this study, we present a method of improving the performance of non-fullerene organic solar cells. Two shapes of metal nanoparticles such as gold nanoparticles (AuNps) and gold nanorods (AuNrs) were introduced into the hole transport layer of OSCs to excite the localized surface resonance (LSPR). The reference structure of organic solar cells consists of an indium-tin-oxide (ITO)-coated glass substrate/PEDOT: PSS/PM6:Y6/ aluminum (Al) doped ZnO /Ag. Experimental results showed that the power efficiency (PCE) of OSCs with AuNPs from 3.98% to 6.83% and 7.98%, the PCE of OSCs with AuNRs was also increased to 7.33% and 5.97%, respectively. All the parameters such as JSC, FF, VOC is crucial to improve the performance of organic solar cells. The results indicate that improved performance of OSCs is originated from the enhanced LSPR electrical field of metal nanoparticles in organic solar cells.
Keyword(in Japanese)	(See Japanese page)
Keyword(in English)	Organic solar cells / Metal nanoparticles / Localized surface plasmon
Paper #	MRIS2023-10,CPM2023-44,OME2023-31
Date of Issue	2023-10-19 (MRIS, CPM, OME)

Conference Information
Committee	MRIS / CPM / ITE-MMS / OME
Conference Date	2023/10/26(2days)
Place (in Japanese)	(See Japanese page)
Place (in English)	Niigata Univ. Ekiminami Campus
Topics (in Japanese)	(See Japanese page)
Topics (in English)	Spintronics, Solid State Memory, Functional material, Thin film process, Material, Devices, etc.
Chair	Ikuya Tagawa(Tohoku Inst. of Tech.) / Hideki Nakazawa(Hirosaki Univ.) / 町田 賢司(NHK) / Eiji Itoh(Shinshu Univ.)
Vice Chair	/ Tomoaki Terasako(Ehime Univ.) / / Akira Baba(Niigata Univ.)
Secretary	(Ehime Univ.) / Tomoaki Terasako(Samsung) / (Shinshu Univ.) / Akira Baba(Kitami Inst. of Tech)
Assistant	Nobuaki Kikuchi(Tohoku Univ.) / Toshiki Yamaji(AIST) / Yasuo Kimura(Tokyo Univ. of Tech.) / Fumihiko Hirose(Yamagata Univ.) / Yuichi Nakamura(Toyohashi Univ. of Tech.) / / Yoshiyuki Seike(Aichi Inst. of Tech.) / PANDEY Shyam sudhir(Kyushu Inst. of Tech.)

Paper Information
Registration To	Technical Committee on Magnetic Recording & Information Storage / Technical Committee on Component Parts and Materials / Technical Group on Multi-media Storage / Technical Committee on Organic Molecular Electronics
Language	ENG
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	Improvement of non-fullerene organic solar cells by using the localized surface plasmon resonance effect of metal nanoparticles
Sub Title (in English)
Keyword(1)	Organic solar cells
Keyword(2)	Metal nanoparticles
Keyword(3)	Localized surface plasmon
1st Author's Name	Yuting Miao
1st Author's Affiliation	Niigata University(Niigata Univ.)
2nd Author's Name	Sachiko Jonai
2nd Author's Affiliation	Niigata University(Niigata Univ.)
3rd Author's Name	Kazunari Shinbo
3rd Author's Affiliation	Niigata University(Niigata Univ.)
4th Author's Name	Keizo Kato
4th Author's Affiliation	Niigata University(Niigata Univ.)
5th Author's Name	Akira Baba
5th Author's Affiliation	Niigata University(Niigata Univ.)
Date	2023-10-26
Paper #	MRIS2023-10,CPM2023-44,OME2023-31
Volume (vol)	vol.123
Number (no)	MRIS-229,CPM-230,OME-231
Page	pp.pp.10-13(MRIS), pp.10-13(CPM), pp.10-13(OME),
#Pages	4
Date of Issue	2023-10-19 (MRIS, CPM, OME)