Realization of 27.84% efficiency of the GaAs/PEDOT: PSS thin-film hybrid solar cell based on high solar energy absorption

doi:10.1016/j.optlastec.2023.109532

科研成果详情

题名	Realization of 27.84% efficiency of the GaAs/PEDOT: PSS thin-film hybrid solar cell based on high solar energy absorption
作者	Wu, Pinghui 1; Zhao, Fei 3; Cui, Lina 2; Pan, Shifa 1; Su, Ning 1; Yang, Huishan 1; Yu, Yanzhong 1; Chen, Musheng 1; Yi, Zao 3; Cai, Shuangshuang4
发表日期	2023-09
发表期刊	OPTICS AND LASER TECHNOLOGY 影响因子和分区
语种	英语
原始文献类型	Article
关键词	Thin-film hybrid solar cell GaAs/PEDOT:PSS GaAs nanodisc Efficient solar energy absorption Surface plasmons resonance GaAs/PEDOT: PSS
其他关键词	PHOTOCURRENT GENERATION ; OPTIMIZATION ; ABSORBER ; POLYMER
摘要	In the present work, we investigated optoelectronic properties of the PEDOT: PSS/GaAs thin-film hybrid solar cells (HSCs) with and without GaAs nanodisc (ND) structures through Finite Difference Time Domain method. The GaAs ND enhances solar energy absorption due to incident light coupling with the surface plasmons resonance (SPR). The effect of geometric parameters like the height (h) and radius (r) of GaAs ND and the thickness (d) of GaAs substrate of the HSCs with GaAs ND on light absorption characteristics is investigated. As well as, we studied the anisotropy of absorptance spectrum of the HSCs with incident angles ranging from 0 to 80. Besides, in order to recover the underlying optical absorption mechanism, the electric field intensity profile for the HSCs with and without GaAs ND is investigated. Furthermore, we studied the short-circuit current density (Jsc) and photoelectric conversion efficiency (PCE) to characterize the electrical performance. Simulation results show that average absorption of the HSCs with GaAs ND is 88.23% in wavelength from 300 nm to 1500 nm. The maximum Jsc is 31.91 mA/cm(2), which is 20.02% higher than the planar HSCs. Through theoretical calculation, the maximum PCE of the HSCs with GaAs ND is 27.84%. The high absorption coefficient of GaAs combined with the advantages of organic polymer materials is a very promising thin film solar cells (SCs) solution, which has further potential to improve the availability of GaAs SCs.
资助项目	Open Competition Mechanism Project of Science and Technology Department of Quanzhou City[2022GZ4];National Natural Science Foundation of China[11704223];Natural Science Foundation of Fujian Province[2021J01972,2022J011102];Department of Science and Technology of Fujian Province[2022H0048];Quanzhou City Science & Technology Program of China[2020C019R];
出版者	ELSEVIER SCI LTD
ISSN	0030-3992
EISSN	1879-2545
卷号	164
DOI	10.1016/j.optlastec.2023.109532
页数	9
WOS类目	Optics ; Physics, Applied
WOS研究方向	Optics ; Physics
WOS记录号	WOS:000993711500001
收录类别	SCIE ; EI ; SCOPUS
在线发表日期	2023-04
EI入藏号	20231814048698
EI主题词	Thin films
EI分类号	525.5 Energy Conversion Issues ; 657.1 Solar Energy and Phenomena ; 701.1 Electricity: Basic Concepts and Phenomena ; 702.3 Solar Cells ; 708.2 Conducting Materials ; 712.1 Semiconducting Materials ; 712.1.1 Single Element Semiconducting Materials ; 741.1 Light/Optics ; 804 Chemical Products Generally ; 815.1 Polymeric Materials ; 921 Mathematics ; 931.3 Atomic and Molecular Physics ; 932.3 Plasma Physics
URL	查看原文
Scopus记录号	2-s2.0-85154561006
通讯作者地址	[Yang, Huishan]Research Center for Photonic Technology,Fujian Provincial Key Laboratory for Advanced Micro-nano Photonics Technology and Devices & Key Laboratory of Information Functional Material for Fujian Higher Education,Quanzhou Normal University,Quanzhou,362000,China
scopus学科分类	Electronic, Optical and Magnetic Materials;Atomic and Molecular Physics, and Optics;Electrical and Electronic Engineering
引用统计
文献类型	期刊论文
条目标识符	https://kms.wmu.edu.cn/handle/3ETUA0LF/180083
专题	眼视光学院（生物医学工程学院）、附属眼视光医院仁济学院_眼视光、生物医学工程学部
通讯作者	Yang, Huishan
作者单位	1.Research Center for Photonic Technology,Fujian Provincial Key Laboratory for Advanced Micro-nano Photonics Technology and Devices & Key Laboratory of Information Functional Material for Fujian Higher Education,Quanzhou Normal University,Quanzhou,362000,China; 2.College of Textiles and Apparel,Quanzhou Normal University,Quanzhou,362000,China; 3.Joint Laboratory for Extreme Conditions Matter Properties,Southwest University of Science and Technology,Mianyang,621010,China; 4.School of Biomedical Engineering,Wenzhou Medical University,Wenzhou,325035,China
推荐引用方式 GB/T 7714	Wu, Pinghui,Zhao, Fei,Cui, Lina,et al. Realization of 27.84% efficiency of the GaAs/PEDOT: PSS thin-film hybrid solar cell based on high solar energy absorption[J]. OPTICS AND LASER TECHNOLOGY,2023,164.
APA	Wu, Pinghui., Zhao, Fei., Cui, Lina., Pan, Shifa., Su, Ning., ... & Cai, Shuangshuang. (2023). Realization of 27.84% efficiency of the GaAs/PEDOT: PSS thin-film hybrid solar cell based on high solar energy absorption. OPTICS AND LASER TECHNOLOGY, 164.
MLA	Wu, Pinghui,et al."Realization of 27.84% efficiency of the GaAs/PEDOT: PSS thin-film hybrid solar cell based on high solar energy absorption".OPTICS AND LASER TECHNOLOGY 164(2023).