Journal
ACS ENERGY LETTERS
Volume 3, Issue 9, Pages 2086-2093Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsenergylett.8b01181
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Funding
- Asian Office of Aerospace RD [FA2386-15-1-4106]
- Office of Naval Research [N00014-17-1-2260, N00014-17-1-2201]
- University of Washington, Department of Chemistry Kwiram Endowment
- Washington Research Foundation
- Washington Research Foundation innovation fellowship at the University of Washington Clean Energy Institute
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Quasi-2D perovskites are attractive because of their improved stability compared to 3D counterparts, but they suffer from reduced performance. Here we report an efficient quasi-2D perovskite (PEA)(2)(MA)(4)Pb5I16-based optoelectronic device processed with NH4SCN and NH4Cl additives, showing a stabilized photovoltaic power conversion efficiency as high as 14.1% (average value 12.9 0.8%), which is among the highest performing quasi-2D perovskite solar cells. These additives increase the perovskite crystallinity and induce a preferred orientation with the (0k0) planes perpendicular to the substrate, resulting in improved transport properties and hence increased short-circuit current density. Furthermore, the NH4Cl treatment enriches the Cl concentration near the PEDOT:PSS/perovskite interface, which passivates the electron traps, leading to an enhanced electroluminescence external quantum efficiency (0.68% at +2.5 V bias). As a result, high open-circuit voltages of 1.21 +/- 0.01 V with a record low nonradiative V-OC loss of only similar to 0.16 V could be achieved for the quasi-2D perovskite system.
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