Efficient indoor pin hybrid perovskite solar cells using low temperature solution processed NiO as hole extraction layers

Journal article

Jagadamma, Lethy Krishnan, Blaszczyk, Oskar, Sajjad, T., Ruseckas, Arvydas and Samuel, Ifor DW (2019). Efficient indoor pin hybrid perovskite solar cells using low temperature solution processed NiO as hole extraction layers. Solar Energy Materials and Solar Cells. 201, pp. 110071-110071. https://doi.org/10.1016/j.solmat.2019.110071
AuthorsJagadamma, Lethy Krishnan, Blaszczyk, Oskar, Sajjad, T., Ruseckas, Arvydas and Samuel, Ifor DW
Abstract

Hybrid perovskites have received tremendous attention due to their exceptional photovoltaic and optoelectronic properties. Among the two widely used perovskite solar cell device architectures of n-i-p and p-i-n, the latter is interesting in terms of its simplicity of fabrication and lower energy input. However this structure mostly uses PEDOT:PSS as a hole transporting layer which can accelerate the perovskite solar cell degradation. Hence the development of stable, inorganic hole extraction layers (HEL), without compromising the simplicity of device fabrication is crucial in this fast-growing photovoltaic field. Here we demonstrate a low temperature (~100 oC) solution - processed and ultrathin (~ 6 nm) NiO nanoparticle thin film as an efficient HEL for CH3NH3PbI3 based perovskite solar cells. We measure a power conversion efficiency (PCE) of 13.3 % on rigid glass substrates and 8.5 % on flexible substrates. A comparison with PEDOT:PSS based MAPbI3 solar cells (PCE ~ 7.9 %) shows that NiO based solar cells have higher short circuit current density and improved open circuit voltage (1.03V). Apart from the photovoltaic performance under 1 Sun, the efficient hole extraction property of NiO is demonstrated for indoor lighting as well with a PCE of 23.0 % for NiO based CH3NH3PbI2.9Cl0.1 p-i-n solar cells under compact fluorescent lighting. Compared to the perovskite solar cells fabricated on PEDOT:PSS HEL, better shelf-life stability is observed for perovskite solar cells fabricated on NiO HEL. Detailed microstructural and photophysical investigations imply uniform morphology, lower recombination losses, and improved charge transfer properties for CH3NH3PbI3 grown on NiO HEL.

Year2019
JournalSolar Energy Materials and Solar Cells
Journal citation201, pp. 110071-110071
PublisherNorth-Holland
ISSN0927-0248
Digital Object Identifier (DOI)https://doi.org/10.1016/j.solmat.2019.110071
Publication dates
Print08 Aug 2019
Online08 Aug 2019
Publication process dates
Accepted19 Jul 2019
Deposited18 Mar 2020
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