Research Progress of Recombination Layers in Two-terminal Tandem Solar Cells Based on Wide Bandgap Perovskite

Yiman DONG; Zhan’ao TAN

doi:10.15541/jim20230116

Journals >Journal of Inorganic Materials >Volume 38 >Issue 9 >Page 1031 > Article

Journal of Inorganic Materials
Vol. 38, Issue 9, 1031 (2023)

Research Progress of Recombination Layers in Two-terminal Tandem Solar Cells Based on Wide Bandgap Perovskite

Yiman DONG and Zhan’ao TAN^*

Author Affiliations

Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology, Beijing 100029, China

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DOI: 10.15541/jim20230116 Cite this Article

Yiman DONG, Zhan’ao TAN. Research Progress of Recombination Layers in Two-terminal Tandem Solar Cells Based on Wide Bandgap Perovskite[J]. Journal of Inorganic Materials, 2023, 38(9): 1031 Copy Citation Text

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1. Device structures of 2T tandem solar cells based on p-i-n structured perovskite subcells

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2. Structures and device performance of 2T tandem solar cells based on thin metal RLs

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3. Photoelectric properties of ITO nanocrystals and schematic diagram of preparation process of corresponding 2T tandem solar cell

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4. IZO as RL in 2T tandem solar cells and the corresponding characterization^[40]

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5. Perovskite-perovskite 2T tandem solar cell and corresponding device performance before and after the simplification of ICL^[44]

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6. InO_x RL-based 2T tandem solar cells and their photoelectric properties

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7. 2T tandem solar cells with PEDOT:PSS or GO as RL

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Front subcell		ICL	Rear subcell		V_OC/V	J_SC/(mA·cm^-2)	FF/%		PCE/%		Ref.
CsPbI₂Br		MoO₃/Ag/PFN-Br	PTB7-Th:IEICO-4F		1.82	13.20	71.68		17.24		[12]
FA_0.8MA_0.02Cs_0.18Pb_1.8Br_1.2		C₆₀/BCP/Ag/MoO_x	PBDBT-2F:Y6:PC₇₁BM		1.90	13.05	83.1		20.6		[30]
CsPbI_2.1Br_0.9		MoO₃/Ag/ZnO	PM6:Y6		1.89	12.77	74.81		18.06		[49]
CsPbI₂Br		MoO₃/Ag/PFN-Br	PM6:Y6-BO		1.96	13.30	80.8		21.1		[13]
FA_0.6MA_0.4Pb(I_0.6Br_0.4)₃		C₆₀/BCP/Ag/MoO_x	PTB7-Th: BTPV-4Cl-eC9		1.88	15.70	74.6		15.84		[50]
CsPbI₂Br		MoO₃/Ag/PFN-Br	PM6:Y6		2.10	13.09	75.1		20.6		[31]
CsPbI₂Br		MoO₃/Ag/PFN-Br	D18:Y6		2.22	12.68	76.0		21.4		[51]
FA_0.8Cs_0.2Pb(I_0.7Br_0.3)₃		C₆₀/BCP/Ag/MoO_x/ITO/PEDOT:PSS	(FASnI₃)_0.6(MAPbI₃)_0.4:Cl		1.92	14.00	78.1		21.0		[25]
FA_0.8Cs_0.2Pb(I_0.6Br_0.4)₃		C₆₀/ALD SnO₂/Au/PEDOT:PSS	FA_0.7MA_0.3Pb_0.5Sn_0.5I₃		1.97	15.6	81.0		24.8		[32]
FA_0.8Cs_0.2Pb(I_0.6Br_0.4)₃		C₆₀/ALD SnO₂/Au/PEDOT:PSS	FA_0.7MA_0.3Pb_0.5Sn_0.5I₃		2.01	16.0	79.8		25.6		[26]
MA_0.96FA_0.1PbI₂Br(SCN)_0.12		PCBM/BCP/Au/MoO₃	PM6:CH1007		1.96	13.8	78.4		21.2		[52]
1.77 eV perovskite		C₆₀/ALD SnO_x/Au/PEDOT:PSS	1.23 eV Perovskite		1.95	15.8	75		23.1		[53]
Wide E_g perovskite		PCBM/BCP/Au/MoO₃	PM6:Y6		1.94	13.12	78.7		20.03		[54]
FA_0.8Cs_0.2PbI_1.95Br_1.05		C₆₀/ALD SnO₂/Au/PEDOT:PSS	FA_0.7MA_0.3Pb_0.5Sn_0.5I₃		2.00	15.8	78.3		24.7		[34]
FA_0.7Cs_0.3PbI_2.1Br_0.9		LiF/C₆₀/SnO₂/Au/PEDOT:PSS	(FASnI₃)_0.6(MAPbI₃)_0.4		2.12	15.03	80.1		25.5		[55]
FA_0.8Cs_0.2Pb(I_0.62Br_0.38)₃		C₆₀/ALD SnO₂/Au/PEDOT:PSS	FA_0.7MA_0.3Pb_0.5Sn_0.5I₃		2.03	16.5	79.9		26.7		[14]
FA_0.8Cs_0.2PbI_1.8Br_1.2		C₆₀/ALD SnO₂/Au/PEDOT:PSS	PM6:Y6		2.07	13.92	77.29		22.29		[15]
1.75 eV perovskite		LiF/C₆₀/ALD SnO_x/Au/PEDOT:PSS	FA_0.6MA_0.4Sn_0.6Pb_0.4I₃		2.20	15.1	81.6		27.2		[35]
Cs_0.2FA_0.8Pb(I_0.6Br_0.4)₃		C₆₀/ALD SnO_x/Au/PEDOT:PSS	Cs_0.05FA_0.7MA_0.25Pb_0.5Sn_0.5I₃		2.19	15.05	83.1		27.4		[56]
FA_0.8Cs_0.2PbI_2.1Br_0.9		LiF/C₆₀/ALD SnO₂/Au	FA_0.6MA_0.3Cs_0.1Pb_0.5Sn_0.5I₃		1.94	12.9	85.8		21.5		[57]
CsPbI_2.2Br_0.8		MoO₃/Au/ZnO	PM6:CH1007		2.10	13.90	76.86		22.43		[58]
FA_0.83Cs_0.17Pb(I_0.5Br_0.5)₃		SnO₂/ZTO/ITO/PEDOT:PSS	FA_0.75Cs_0.25Sn_0.5Pb_0.5I₃		1.66	14.5	70		16.9		[36]
MA_0.9Cs_0.1Pb(I_0.6Br_0.4)₃		C₆₀/Bis-C₆₀/ITO/PEDOT:PSS	MAPb_0.5Sn_0.5I₃		1.98	12.7	73		18.5		[16]
Wide E_g perovskite		nc-SiO_x:H/ITO/PTAA	Silicon		1.76	18.5	78.5		25.5		[17]
Cs_0.15(FA_0.83MA_0.17)_0.85Pb(I_0.8Br_0.2)₃		a-Si:H(n⁺)/ITO/PTAA	Silicon		1.80	17.8	79.4		25.4		[59]
Cs_0.1MA_0.9Pb(I_0.9Br_0.1)₃		a-Si:H(n⁺)/ITO/PTAA	Silicon		1.82	19.2	75.3		26.2		[38]
FA_0.8Cs_0.2 Pb(I_0.6Br_0.4)₃		C₆₀/ITO NCs/E-NiO_x	FA_0.8Cs_0.2Pb_0.5Sn_0.5I₃		1.90	15.4	80.4		23.5		[37]
Cs_0.2FA_0.8PbI_1.8Br_1.2		C₆₀/ALD SnO₂/ITO NCs	FAPb_0.5Sn_0.5I₃		2.03	16.2	80.3		26.3		[60]
Cs_0.1(MA_0.17FA_0.83)_0.9Pb(I_0.83Br_0.17)₃		a-Si:H(n)/ITO/NiO_x	Silicon		1.75	15.5	73.6		20.0		[61]
Wide E_g perovskite		nc-SiO_x(n)/ITO/NiO_x/2-PACz	Silicon		1.79	20.11	79.95		28.84		[39]
Wide E_g perovskite		a-Si:H(n)/ITO/NiO_x	Silicon		1.82	16.31	78.32		23.31		[62]
Cs_0.05(FA_0.77MA_0.23)_0.95Pb(I_0.77Br_0.23)₃		nc-SiO_x:H(n)/ITO	Silicon		1.90	19.54	80.90		29.83		[63]
Wide E_g perovskite		a-Si:H(i/n)/ITO/NiO	Silicon		1.85	19.8	78.9		28.9		[64]
MAPbI₃		p-aSi/IZO/PCBM	Silicon		1.69	15.8	79.9		21.4		[11]
1.79 eV perovskite		C₆₀/BCP/IZO/MoO_x	PM6:Y6:PC₇₁BM		2.06	14.83	77.2		23.6		[40]
FA_0.78Cs_0.22Pb(I_0.85Br_0.15)₃	Passivated ETL/IZO/SAM		Silicon	1.91		19.29		78.3		28.81	[42]
Cs_0.05MA_0.14FA_0.81Pb(I_0.8Br_0.2)₃	N doped nc-Si/IZO/2-PACz		Silicon	1.85		19.7		77.9		28.4	[41]
Wide E_g Perovskite	Poly-Si(n⁺)IZO		TOPCon	1.80		19.4		81.64		28.49	[43]
Cs_0.4FA_0.6PbI_1.95Br_1.05	(n⁺)C₆₀/SnO_1.76		Cs_0.05MA_0.45FA_0.5Pb_0.5Sn_0.5I₃	2.03		15.2		79.7		24.6	[44]
FA_0.8Cs_0.2Pb(I_0.5Br_0.5)₃	SiO_x/InO_x/MoO_x		PM6:Y6:PC₆₁BM	2.15		14.0		80		24.0	[45]
MAPbI₃	Spiro-OMeTAD/PEDOT:PSS/PEI		MAPbI₃	1.89		6.61		56		7.0	[47]
PBSeDTEG8:PC₆₁BM	TiO₂/PEDOT:PSS-PH500/PEDOT:PSS 4083		MAPbI₃	1.52		10.05		67		10.23	[18]
MAPbBr₃	Spiro-OMeTAD/PEDOT:PSS/C₆₀		MAPbI₃	1.96		6.40		41		5.1	[48]
Cs_0.4FA_0.6PbI₂Br	C₆₀/SnO₂/Graphene oxide/PEDOT:PSS		Cs_0.2FA_0.8Pb_0.5Sn_0.5I₃	2.02		15.8		79.3		25.3	[23]
Cs_0.4FA_0.6PbI_2.16Br_0.84	C₆₀/SnO_2-_x/Graphene oxide/SnOCl		Cs_0.2FA_0.8Pb_0.5Sn_0.5I₃	2.05		16.2		79.3		26.3	[24]

Table 1. Summary of structure and performance of 2T tandem solar cells

Yiman DONG, Zhan’ao TAN. Research Progress of Recombination Layers in Two-terminal Tandem Solar Cells Based on Wide Bandgap Perovskite[J]. Journal of Inorganic Materials, 2023, 38(9): 1031

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