Perovskite-based low-cost and high-efficiency hybrid halide solar cells

Fig. 3. Architecture schematics of three types of photoanodes in perovskite solar cells: (a) mesoporous TiO2/Al2O3/ZrO2, (b) TiO2/ZnO NWs, and (c) without the scaffold layer.

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Fig. 4. (a) UV-Vis absorbance of the FAPbIyBr3−y perovskite with varying y, measured in an integrating sphere. (b) Corresponding steady-state photoluminescence spectra for the same films. (c) Photographs of the FAPbIyBr3−y perovskite films with y increasing from 0 to 1 (left to right). Adapted with permission from Ref. [59].

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Fig. 5. Cross-sectional SEM images under lower magnification of completed solar cells constructed from (a) vapor-deposited perovskite film and (b) solution-processed perovskite film. (c) Schematic of dual-source thermal evaporation system for depositing the perovskite absorbers; the organic source was methylammonium iodide, and the inorganic source was PbCl2. (d) Current-density/voltage curves of the best-performing solution-processed (blue lines, triangles) and vapor-deposited (red lines, circles) p-i-n perovskite solar cells measured under simulated AM1.5 sunlight of 101 mW cm−2 irradiance (solid lines) and in the dark (dashed lines). Adapted with permission from Ref. [32].

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Fig. 6. (a) Photo image of flexible perovskite solar cells on the PET/ITO substrate and (b) device performance of the perovskite solar cells on the PET/ITO flexible substrate before and after bending. Adapted with permission from Ref. [60].

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Fig. 7. Time-resolved PL measurements taken at the peak emission wavelength of (a) mixed-halide perovskite and (b) triiodide perovskite with an electron (PCBM, blue triangles) or hole (spiro-OMeTAD, red circles) quencher layer, along with stretched exponential fits to the PMMA data (black squares) and fits to the quenching samples by using the diffusion model described in the text. A pulsed (0.3 to 10 MHz) excitation source at 507 nm with a fluence of 30 nJ/cm2 impinged on the glass substrate side. (Inset) Comparison of the PL decay of the two perovskites (with PMMA) on a longer time scale, with lifetimes τe quoted as the time taken to reach 1/e of the initial intensity. Adapted with permission from Ref. [62].

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Table 1. Summary of the Device Evolution and Performance of Perovskite Solar Cells

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Table 1. Summary of the Device Evolution and Performance of Perovskite Solar Cells

Perovskite Materials	Photoanode	Deposition Method	HTM	Area ( ${cm}^{2}$ )	PCE	Year
${CH}_{3} {NH}_{3} Pb I_{3} / {CH}_{3} {NH}_{3} Pb {Br}_{3}$ [30]	${TiO}_{2}$ (mesoporous)	Dropping	$I^{-} / I_{3}^{-}$	0.238	3.81%	2009
$({CH}_{3} {NH}_{3}) Pb I_{3}$ [34]	${TiO}_{2}$ (mesoporous)	Spin coating	$I^{-} / I_{3}^{-}$	0.303	6.54%	2011
${CH}_{3} {NH}_{3} Pb I_{2} Cl$ [35]	${TiO}_{2} / {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	Spiro-OMeTAD	0.090	10.9%	2012
${CH}_{3} {NH}_{3} Pb I_{3}$ [36]	${TiO}_{2}$ (mesoporous)	Spin coating	No	0.120	7.3%	2012
${CH}_{3} {NH}_{3} Pb I_{3}$ [31]	${TiO}_{2}$ (mesoporous)	Spin coating	Spiro-OMeTAD	0.207	9.7%	2012
${BaSnO}_{3} + N 719$ [37]	${BaSnO}_{3}$	Doctor-blade	$I^{-} / I_{3}^{-}$	0.160	6.2%	2013
${CH}_{3} {NH}_{3} Pb {Br}_{3}$ [38]	${TiO}_{2} / {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	P3HT/PDI/TPD/PCBM	0.030	0.72%	2013
${CH}_{3} {NH}_{3} Pb {(I_{1 - x} {Br}_{x})}_{3}$ [39]	${TiO}_{2}$ (mesoporous)	Spin coating	PTAA	0.096	12.3%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [40]	${TiO}_{2}$ (mesoporous)	Spin coating	Spiro-OMeTAD/P3HT/DEH	0.200	8.5%	2013
$CsSn I_{3 - x} F_{x} + N 719$ [41]	${TiO}_{2}$ (nanoporous)	Injecting	$CsSn I_{3 - x} F_{x}$	0.326	10.2%	2012
${CH}_{3} {NH}_{3} Pb I_{3}$ [42]	${TiO}_{2}$ (nanorods)	Spin coating	Spiro-OMeTAD	0.215	9.4%	2013
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [43]	${TiO}_{2} + C 60 SAM$ (mesoporous)	Spin coating	Spiro-OMeTAD/P3HT	0.090	11.7%	2013
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [44]	${TiO}_{2} + {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	Spiro-OMeTAD	0.090	12.3%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [45]	${TiO}_{2}$ (mesoporous)	Spin coating + dipping	Spiro-OMeTAD	0.285	15%	2013
${CH}_{3} {NH}_{3} {PbI}_{3 - x} {Cl}_{x} + Au @ {SiO}_{2}$ [46]	${TiO}_{2} + {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	Spiro-OMeTAD	0.080	11.4%	2013
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [47]	${TiO}_{2} + {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	PIL-doping Spiro-OMeTAD	0.080	11.87%	2013
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [48]	${TiO}_{2}$ (planar thin film)	Spin coating	Spiro-OMeTAD	0.090	11.4%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [49]	${TiO}_{2} + {ZrO}_{2}$ (mesoporous)	Spin coating + dipping	Spiro-OMeTAD	0.200	10.8%	2013
${CH}_{3} {NH}_{3} Pb I_{2} Br$ [50]	${TiO}_{2}$ Nanowires	Spin coating	Spiro-OMeTAD	0.196	4.87%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [51]	ZnO nanowires	Spin coating	Spiro-OMeTAD	0.200	5.0%	2013
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [32]	${TiO}_{2}$ (planar thin film)	Vapor	Spiro-OMeTAD	0.076	15.4%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [52]	${TiO}_{2}$ (mesoporous)	Spin coating	CuI	0.090	6.0%	2013
${CH}_{3} {NH}_{3} Pb I_{3}$ [53]	${TiO}_{2} + {ZrO}_{2}$ (mesoporous)	Spin coating	Py-A/Py-B/Py-C/Spiro-OMeTAD	0.160	12.7%	2013
$HC {({NH}_{2})}_{2} Pb I_{3}$ [54]	${TiO}_{2}$ (mesoporous)	Spin coating + dipping	Spiro-OMeTAD	0.200	4.3%	2014
${CH}_{3} {NH}_{3} Pb I_{2} Cl$ [55]	${TiO}_{2}$ (planar thin film)	Spin coating	P3HT	0.050	10.8%	2014
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [56]	graphene- ${TiO}_{2} + {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	Spiro-OMeTAD	0.063	15.6%	2014
${CH}_{3} {NH}_{3} Pb I_{3}$ [57]	${TiO}_{2}$ (planar thin film)	Spin coating + vapor	Spiro-OMeTAD	0.120	12.1%	2014
${CH}_{3} {NH}_{3} Pb I_{3}$ [58]	ZnO (planar thin film)	Spin coating + dipping	Spiro-OMeTAD	0.071	15.7%	2014
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [33]	${TiO}_{2} + {Al}_{2} O_{3}$ (meso-superstructure)	Spin coating	Spiro-OMeTAD	0.063	15.9%	2014
$HC {({NH}_{2})}_{2} Pb I_{y} {Br}_{3 - y}$ [59]	${TiO}_{2}$ (planar thin film)	Spin coating	Spiro-OMeTAD	0.063	14.2%	2014
${CH}_{3} {NH}_{3} Pb I_{3 - x} {Cl}_{x}$ [60]	PEDOT:PSS	Spin coating	PCBM	0.100	11.5%	2014