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

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

Journals >Journal of Inorganic Materials >Volume 35 >Issue 6 >Page 623 > Article

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

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

Shouwu YU¹, Zewen ZHAO^1、2, Jinjin ZHAO², Shujuan XIAO¹, Yan SHI³, Cunfa GAO³, Xiao SU², Yuxiang HU⁴, Zhisheng ZHAO⁵, Jie WANG², and Lianzhou WANG^4、*

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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DOI: 10.15541/jim20190342 Cite this Article

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 Copy Citation Text

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

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

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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]

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

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