<trans-title>Research Progress in Novel<i> In-situ </i>Integrative Photovoltaic-storage Tandem Cells</trans-title>

Shouwu YU; Zewen ZHAO; Jinjin ZHAO; Shujuan XIAO; Yan SHI; Cunfa GAO; Xiao SU; Yuxiang HU; Zhisheng ZHAO; Jie WANG; Lianzhou WANG

doi:10.15541/jim20190342

Journal of Inorganic Materials, Volume. 35, Issue 6, 623(2020)

Research Progress in Novel In-situ Integrative Photovoltaic-storage Tandem Cells

Shouwu YU1... Zewen ZHAO1,2, Jinjin ZHAO2, Shujuan XIAO1, Yan SHI3, Cunfa GAO3, Xiao SU2, Yuxiang HU4, Zhisheng ZHAO5, Jie WANG2 and Lianzhou WANG4,* |Show fewer author(s)

Author Affiliations

¹College of Materials Science and Engineering, North China University of Science and Technology, Tangshan 063009, China

²School of Materials Science and Engineering, Shijiazhuang Tiedao University, Shijiazhuang 050043, China

³State Key Laboratory of Mechanics and Control of Mechanical Structures, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China

⁴Australian Institute for Bioengineering and Nanotechnology, Nanomaterials Centre, School of Chemical Engineering, The University of Queensland, Brisbane QLD 4072, Australia

⁵State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, China

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Figures & Tables(7)

1. Schematic diagram of an in-situ integrative photovoltaic- storage tandem cell

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2. (a-b)Photographs^[29] and (c-d) schematic diagrams of in-situ integrated SiSC-storage tandem cells^[19,30]

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3. (a) Photograph^[46]and (b-f) schematic diagrams^[11,39,46] of in-situ integrated DSSC-storagetandem cells, and (g-h) schematic diagrams of in-situ integrated QDSSC-storage tandem cells^[48]

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4. (a) Photograph^[75] and (b-d) schematic diagrams of in-situ integrated PSC-storage tandem cells^[13,73,75]

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Table 1. Performance parameters of in-situ integrative SiSC-storage tandem cells

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Table 1. Performance parameters of in-situ integrative SiSC-storage tandem cells

Solar cell type	Device construction	η_overall*/%	η_solar*/%	η_storage*/%	Ref.
	PEDOT:PSS/n-Si/Ti/PE/(PVA/H₃PO₄)/PE/Ti	10.50	13.39	78.42	[29]
SiSC-SPC	Glass/c-Si/Insulation layer/Graphene oxides/ Electrolyte/Substrate	9.72	15.69	62.00	[30]
	PEDOT:PSS/Si/Au/Graphene/Separator/Graphene/PET	2.92	12.37	23.61	[19]
SiSC-LIB	c-Si/Al/SiO₂/Al/Li₄Ti₅O₁₂/Soild electrolyte/LiCoO₂/ Al/Li₄Ti₅O₁₂/Solid electrolyte/LiCoO₂/Al	7.61	15.80	48.16	[31]

Table 2. Performance comparison of in-situ integrative SSC-storage tandem cells

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Table 2. Performance comparison of in-situ integrative SSC-storage tandem cells

Solar cell type	Device construction	η_overall*/%	η_solar*/%	η_storage*/%	Ref.
DSSC-SPC	FTO/TiO₂@dye/LiI/Carbon layer/Porous separator/C/Pt	-	-	59.00	[12]
	FTO/TiO₂@N719/I^-/I₃^-/Pt/Carbon/Separator/Electrolyte/C/Pt	-	-	42.00	[37]
	TCO/TiO₂@N719/I^-/I₃^- gel/MWCNT /PVA-H₃PO₄/MWCNT	5.12	6.10	84.00	[39]
	FTO/TiO₂@N719/ I^-/I₃^- /Zn NWs@PVDF @Au@Pt/FTO	3.70	-	-	[40]
	Glass/FTO/TiO₂@dye/ I^-/I₃^-/Si/Ionic polymer/Si wafer	2.10	2.63	80.00	[41]
	FTO/TiO₂-D365dye/P3HT/Ag/RuO_x(OH)_y/Nafion membrane/ RuO_x(OH)_y/FTO	0.80	0.91	88.00	[42]
	Ti/TiO₂@N719/ I^-/I₃^-/Pt/Parafilm/C/PVDF/ SS	1.46	2.03	71.56	[43]
	CNT fiber@CNTs/ Ti wire/TiO₂@N719/I^-/I₃^-/CNT fiber	1.50	6.10	84.00	[44]
	Ti wire/TiO₂@N719/Eutectic melts/CNTs-Ti wire/ TiO₂ /PVA-H₃PO₄/CNT	2.07	2.73	75.70	[45]
	Ti/TiO₂@N719/I^-/I₃^-/MWCNT/Separator/MWCNT/PVA-H₃PO₄/MWCNT	1.83	6.47	28.30	[11]
	Ti Fiber@TiO₂@dye/ I^-/I₃^-/Stainless steel(ss)@PANi-SS@Space wire/H₂SO₄/ss@PANi	2.12	4.56	46.00	[18]
	Ti/TiO₂@N719/I^-/I₃^-/Carbon fiber(CF)/EVA/Cu-CF@RuO₂∙xH₂O/H₃PO₄/PVA/CF@RuO₂∙xH₂O/EVA/Cu/PDMS	-	5.64	-	[46]
QDSSC-SPC	Glass/FTO/TiO₂@CdS/CdSe/S^2-/S/Cfiber@Cu₂S/C/Electrolyte/C		1.8		[48]
DSSC-LIB	Pt/Electrolyte/TNTs@N719/Ti/TNTs/Membrane/LiCoO₂/Al	0.82	-	-	[49]
	PEN/ITO/TiO₂@N719/I^-/I₃^-/Pt/PEDOT/LiClO₄/PEDOT/Pt	-	4.37	-	[50]
	FTO/TiO₂@N3/I^-/I₃^-/Pt/PProDOT-Et₂/LiClO₄/PProDOT-Et₂/Pt	0.60	0.75	80.00	[51]
	FTO/Pt/ I^-/I₃^-/TiO₂nanotube (ATO)@N749/Ti/ ATO/Separator/Li₂SO₄/ATO/Ti/FTO	1.64	3.18	51.60	[52]
	FTO/TiO₂@bis-EDOT dye/PEDOT/C/LiClO₄/electrolyte/ppy/FTO	0.10	-	-	[53]

Table 3. Performance comparison of in-situ integrative PSC-storage tandem cells

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Table 3. Performance comparison of in-situ integrative PSC-storage tandem cells

Device construction	η_overall*/%	η_solar*/%	η_storage*/%	Ref.
FTO/c-TiO₂/m-TiO₂/CH₃NH₃PbI₃/Carbon/Gel electrolyte/Carbon	7.10	9.60	73.96	[72]
FTO/TiO₂/Perovskite/Carbon/MnO₂/Membrane SSE/Carbon	5.26	7.79	67.50	[13]
ITO/pss/PTAA/Perovskite/PCBM/PEI/Ag/GRO/PVA/Separator/PVA/GRO	10.97	13.66	80.31	[73]
FTO/TiO₂/CH₃NH₃PbI₃/MWCNT/PMMA/PVA/PANI@acSACNT/PMMA/SACNT	1.92	2.71	70.90	[74]
PET/ITO/PEDOT:PSS/CH₃NH₃PbI₃/PCBM/CuOHNT/AgNW/AuPd/MnO₂/KOH/PVA/MnO₂/AuPd/AgNW/CuOHNT	6.97	10.41	67.00	[75]

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Shouwu YU, Zewen ZHAO, Jinjin ZHAO, Shujuan XIAO, Yan SHI, Cunfa GAO, Xiao SU, Yuxiang HU, Zhisheng ZHAO, Jie WANG, Lianzhou WANG. Research Progress in Novel In-situ Integrative Photovoltaic-storage Tandem Cells[J]. Journal of Inorganic Materials, 2020, 35(6): 623

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