Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites
A library of large organic cation spacers is available for engineering the performance of layered two-dimensional (2D) halide perovskite devices. Despite extensive photophysics studies, there remains a research gap over the structure-function relations in 2D perovskites, especially the underlying fa...
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sg-ntu-dr.10356-1713462023-10-23T15:35:13Z Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites Furuhashi, Tomoki Kanwat, Anil Ramesh, Sankaran Mathews, Nripan Sum, Tze Chien School of Physical and Mathematical Sciences Interdisciplinary Graduate School (IGS) Energy Research Institute @ NTU (ERI@N) Science::Physics::Optics and light Auger Recombination Defects Exciton-Phonon Coupling Organic Spacer Cations Two-Dimensional Perovskites A library of large organic cation spacers is available for engineering the performance of layered two-dimensional (2D) halide perovskite devices. Despite extensive photophysics studies, there remains a research gap over the structure-function relations in 2D perovskites, especially the underlying factors influencing the Auger recombination (AR) process. Herein, the contributions of exciton binding energy, exciton-phonon coupling, and defects/film morphology to the AR process in 2D perovskites are examined. Phenyl-alkyl-ammonium cations with different lengths of attached alkyl groups, commonly used in blue light-emitting diodes, are investigated. The findings reveal an order of magnitude higher threshold carrier density for the AR onset as well as a reduced AR in cations with longer alkyl chain length. Although possessing similar exciton binding energies, the exciton-phonon coupling strength is found to play a major role in reducing the AR rate, with a smaller contribution from the defect states/film morphology. The findings can help provide further guidance on organic spacer cation engineering for highly efficient 2D perovskite light emitters. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This research is supported by the Ministry of Education, Singapore, under its AcRF Tier 2 grants (MOE-T2EP50120-0004 and MOE-T2EP20120-0013) and the National Research Foundation, Singapore (NRF) under its NRF Investigatorship (NRF-NRFI2018-04). 2023-10-19T07:48:46Z 2023-10-19T07:48:46Z 2023 Journal Article Furuhashi, T., Kanwat, A., Ramesh, S., Mathews, N. & Sum, T. C. (2023). Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites. Advanced Optical Materials. https://dx.doi.org/10.1002/adom.202301230 2195-1071 https://hdl.handle.net/10356/171346 10.1002/adom.202301230 en MOE-T2EP50120-0004 MOE-T2EP20120-0013 NRF-NRFI2018-04 Advanced Optical Materials 10.21979/N9/FZSD9T © 2023 Wiley-VCH GmbH. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1002/adom.202301230 application/pdf application/pdf |
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Science::Physics::Optics and light Auger Recombination Defects Exciton-Phonon Coupling Organic Spacer Cations Two-Dimensional Perovskites |
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Science::Physics::Optics and light Auger Recombination Defects Exciton-Phonon Coupling Organic Spacer Cations Two-Dimensional Perovskites Furuhashi, Tomoki Kanwat, Anil Ramesh, Sankaran Mathews, Nripan Sum, Tze Chien Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| description |
A library of large organic cation spacers is available for engineering the performance of layered two-dimensional (2D) halide perovskite devices. Despite extensive photophysics studies, there remains a research gap over the structure-function relations in 2D perovskites, especially the underlying factors influencing the Auger recombination (AR) process. Herein, the contributions of exciton binding energy, exciton-phonon coupling, and defects/film morphology to the AR process in 2D perovskites are examined. Phenyl-alkyl-ammonium cations with different lengths of attached alkyl groups, commonly used in blue light-emitting diodes, are investigated. The findings reveal an order of magnitude higher threshold carrier density for the AR onset as well as a reduced AR in cations with longer alkyl chain length. Although possessing similar exciton binding energies, the exciton-phonon coupling strength is found to play a major role in reducing the AR rate, with a smaller contribution from the defect states/film morphology. The findings can help provide further guidance on organic spacer cation engineering for highly efficient 2D perovskite light emitters. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Furuhashi, Tomoki Kanwat, Anil Ramesh, Sankaran Mathews, Nripan Sum, Tze Chien |
| format |
Article |
| author |
Furuhashi, Tomoki Kanwat, Anil Ramesh, Sankaran Mathews, Nripan Sum, Tze Chien |
| author_sort |
Furuhashi, Tomoki |
| title |
Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| title_short |
Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| title_full |
Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| title_fullStr |
Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| title_full_unstemmed |
Unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| title_sort |
unveiling the impact of organic spacer cations on auger recombination in layered halide perovskites |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171346 |
| _version_ |
1781793819634696192 |