Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods
Semitransparent hybrid perovskites open up applications in windows and building-integrated photovoltaics. One way to achieve semitransparency is by thinning the perovskite film, which has several benefits such as cost efficiency and reduction of lead. However, this will result in a reduced light abs...
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sg-ntu-dr.10356-1704752023-09-15T15:43:45Z Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods Lie, Stener Bruno, Annalisa Wong, Lydia Helena Etgar, Lioz School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Materials Semitransparent Solar Cell Perovskite Semitransparent hybrid perovskites open up applications in windows and building-integrated photovoltaics. One way to achieve semitransparency is by thinning the perovskite film, which has several benefits such as cost efficiency and reduction of lead. However, this will result in a reduced light absorbance; therefore, to compromise this loss, it is possible to incorporate plasmonic metal nanostructures, which can trap incident light and locally amplify the electromagnetic field around the resonance peaks. Here, Au nanorods (NRs), which are not detrimental for the perovskite and whose resonance peak overlaps with the perovskite band gap, are deposited on top of a thin (∼200 nm) semitransparent perovskite film. These semitransparent perovskite solar cells with 27% average visible transparency show enhancement in the open-circuit voltage (Voc) and fill factor, demonstrating 13.7% efficiency (improved by ∼6% compared to reference cells). Space-charge limited current, electrochemical impedance spectroscopy (EIS), and Mott–Schottky analyses shed more light on the trap density, nonradiative recombination, and defect density in these Au NR post-treated semitransparent perovskite solar cells. Furthermore, Au NR implementation enhances the stability of the solar cell under ambient conditions. These findings show the ability to compensate for the light harvesting of semitransparent perovskites using the plasmonic effect. National Research Foundation (NRF) Submitted/Accepted version This research is supported by grants from the National Research Foundation, Prime Minister’s Office, Singapore under its Campus of Research Excellence and Technological Enterprise (CREATE) program and the Solar CRP (S18-1176- SCRP). 2023-09-14T04:43:59Z 2023-09-14T04:43:59Z 2022 Journal Article Lie, S., Bruno, A., Wong, L. H. & Etgar, L. (2022). Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods. ACS Applied Materials and Interfaces, 14(9), 11339-11349. https://dx.doi.org/10.1021/acsami.1c22748 1944-8252 https://hdl.handle.net/10356/170475 10.1021/acsami.1c22748 35201744 2-s2.0-85125884342 9 14 11339 11349 en ACS Applied Materials and Interfaces 10.21979/N9/KQB3GN This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Applied Materials and Interfaces, copyright © 2022 American Chemical Society, after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsami.1c22748. application/pdf |
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Engineering::Materials Semitransparent Solar Cell Perovskite Lie, Stener Bruno, Annalisa Wong, Lydia Helena Etgar, Lioz Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| description |
Semitransparent hybrid perovskites open up applications in windows and building-integrated photovoltaics. One way to achieve semitransparency is by thinning the perovskite film, which has several benefits such as cost efficiency and reduction of lead. However, this will result in a reduced light absorbance; therefore, to compromise this loss, it is possible to incorporate plasmonic metal nanostructures, which can trap incident light and locally amplify the electromagnetic field around the resonance peaks. Here, Au nanorods (NRs), which are not detrimental for the perovskite and whose resonance peak overlaps with the perovskite band gap, are deposited on top of a thin (∼200 nm) semitransparent perovskite film. These semitransparent perovskite solar cells with 27% average visible transparency show enhancement in the open-circuit voltage (Voc) and fill factor, demonstrating 13.7% efficiency (improved by ∼6% compared to reference cells). Space-charge limited current, electrochemical impedance spectroscopy (EIS), and Mott–Schottky analyses shed more light on the trap density, nonradiative recombination, and defect density in these Au NR post-treated semitransparent perovskite solar cells. Furthermore, Au NR implementation enhances the stability of the solar cell under ambient conditions. These findings show the ability to compensate for the light harvesting of semitransparent perovskites using the plasmonic effect. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Lie, Stener Bruno, Annalisa Wong, Lydia Helena Etgar, Lioz |
| format |
Article |
| author |
Lie, Stener Bruno, Annalisa Wong, Lydia Helena Etgar, Lioz |
| author_sort |
Lie, Stener |
| title |
Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| title_short |
Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| title_full |
Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| title_fullStr |
Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| title_full_unstemmed |
Semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic Au nanorods |
| title_sort |
semitransparent perovskite solar cells with > 13% efficiency and 27% transperancy using plasmonic au nanorods |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170475 |
| _version_ |
1779156455659667456 |