2017
DOI: 10.1016/j.jpowsour.2017.08.056
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Improved performance of mesoscopic perovskite solar cell using an accelerated crystalline formation method

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Cited by 18 publications
(16 citation statements)
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“…More recently, an increasing number of studies indicate enhanced PCEs in connection with a diminished or even hysteresis-free behavior. This is typically achieved by improving the electron extraction and by reducing the number of surface traps, employing fullerene derivatives [6][7][8], electron selective layers such as SnO 2 [9][10][11] or ZnO [12], by optimizing the growth of the perovskite active layer [13,14], by impurity co-doping of the electron transfer layer [15] or of the perovskite absorber [16]. However, in general, as the employed measurement procedures are rather different and, in some cases, insufficiently controlled or specified, it is quite difficult to assess and compare the potential hysteretic effects: to what extent the hysteretic effects or their absence are truly related to fabrication methods or are a consequence of the measurement conditions?…”
Section: Introductionmentioning
confidence: 99%
“…More recently, an increasing number of studies indicate enhanced PCEs in connection with a diminished or even hysteresis-free behavior. This is typically achieved by improving the electron extraction and by reducing the number of surface traps, employing fullerene derivatives [6][7][8], electron selective layers such as SnO 2 [9][10][11] or ZnO [12], by optimizing the growth of the perovskite active layer [13,14], by impurity co-doping of the electron transfer layer [15] or of the perovskite absorber [16]. However, in general, as the employed measurement procedures are rather different and, in some cases, insufficiently controlled or specified, it is quite difficult to assess and compare the potential hysteretic effects: to what extent the hysteretic effects or their absence are truly related to fabrication methods or are a consequence of the measurement conditions?…”
Section: Introductionmentioning
confidence: 99%
“…[16] Figure 2s hows the surface morphology of annealed MAPbI 3 perovskite films prepared with different methanol additive With diethyle ther,i tc an be seen that the crystalsa re badly formed with the presence of pinholes.W ith addition of 1% methanol, as imilar morphology was observed. [19] Inversely, an excessive amount of DMSO in the intermediate phase also leads to inhomogeneous perovskite films with small grain size. The largest crystal size waso btained with the sample prepared by using 4% methanola lthough there was ab ig inhomogeneity in size between grains.…”
Section: Introductionmentioning
confidence: 99%
“…[3] In addition, less DMSO in the intermediate phase also means that the time neededf or the phase change from perovskite intermediate phaset op erovskite film is accelerated. [19] Inversely, an excessive amount of DMSO in the intermediate phase also leads to inhomogeneous perovskite films with small grain size. Therefore, by adjusting the methanol ratio in the antisolvent,t he amount of DMSO in the perovskite intermediate phase that leads to ap inhole-free homogeneous perovskite film can be controlled to assist crystallization.…”
Section: Introductionmentioning
confidence: 99%
“…Schematic illustration and energy band diagram of PSC with the inverted structure of ITO/PEDOT:PSS/CH 3 NH 3 PbI 3 /PC 70 BM/Liq/Ag are shown in Figure 1A and Figure S2. While the PbI 2 film showed a representative crystallinity peak of 12.5°, the perovskite film, fabricated through the 2‐step process, showed strong perovskite crystalline peaks around 14°, 28.5°, and 32° (110, 220, and 310 planes, respectively) (Figure 1B), where highly crystalline perovskite film is essential for efficient device performance 32‐34 …”
Section: Resultsmentioning
confidence: 99%