2016
DOI: 10.1021/acs.jpcc.6b04233
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Interface-Dependent Ion Migration/Accumulation Controls Hysteresis in MAPbI3 Solar Cells

Abstract: Hysteresis in the current−voltage characteristics of hybrid organic−inorganic perovskite-based solar cells is one of the fundamental aspects of these cells that we do not understand well. One possible cause, suggested for the hysteresis, is polarization of the perovskite layer under applied voltage and illumination bias, due to ion migration within the perovskite. To study this problem systemically, current−voltage characteristics of both regular (light incident through the electron conducting contact) and so-… Show more

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Cited by 127 publications
(152 citation statements)
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“…b) Selective contact materials, [76,116] i.e., hole and electron transport layers (TLs), play crucial roles in this behavior, including the material and the morphology (mesoporous or planar) of the TLs. c) The time scale of hysteresis is in the range of ≈10 to 100 s, [117,118] which is in great contrast to the typical charge generation/recombination processes (≈ns) in PSCs.…”
Section: Origin Of Hysteresismentioning
confidence: 99%
“…b) Selective contact materials, [76,116] i.e., hole and electron transport layers (TLs), play crucial roles in this behavior, including the material and the morphology (mesoporous or planar) of the TLs. c) The time scale of hysteresis is in the range of ≈10 to 100 s, [117,118] which is in great contrast to the typical charge generation/recombination processes (≈ns) in PSCs.…”
Section: Origin Of Hysteresismentioning
confidence: 99%
“…25,30,31,[34][35][36][37][38][39][40][41][42][43] Ion migration on timescales from 10 -1 to 10 2 s has been widely investigated to explain the hysteresis of current density-voltage (J-V) curves. 36,37,40,[44][45][46][47][48] However, the impact of X and potentially A and/or B defect formation and migration on PSC performance on timescales above 10 3 s, which are indicative of long-term stability, remains unknown. 49 Little experimental evidence exists on this subject since separating reversible ion migration from any non-reversible long-term degradation is complex in real device working conditions, i.e.…”
Section: Introductionmentioning
confidence: 99%
“…35,36 According to recent reports, the charge/ion accumulation at TiO 2 /perovskite interface is intimately responsible for the hysteresis response of the devices. 37,38 Before exploring the charge/ion accumulation mechanism in the devices, the key parameters of solar cells such as series resistance (R S ), diode ideality factor (m) and dark reverse saturation Considering the fact that hysteresis phenomena may be related to the interfacial charge accumulation and is more prominent in MAPbI 3 (s) than MAPbI 3 (m) devices, impedance spectroscopy (IS) measurements were performed at zero bias under dark and illumination to investigate the ionic and electronic charge accumulation. As shown in Figure S8, Nyquist spectra in the dark exhibit a high frequency semicircle related to the electronic transport followed by the low frequency line due to ionic diffusion or ionic charge accumulation.…”
mentioning
confidence: 99%