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Terahertz analysis of CH3NH3PbI3 perovskites associated with graphene and silver nanowire electrodes

Terahertz analysis of CH3NH3PbI3 perovskites associated with graphene and silver nanowire electrodes
Terahertz analysis of CH3NH3PbI3 perovskites associated with graphene and silver nanowire electrodes
In order to investigate the thermal and chemical (in)stabilities of MAPbI3 incorporated with graphene and silver nanowire (AgNW) electrodes, we employed the terahertz (THz) time-domain spectroscopy, which has a unique ability to deliver the information of electrical properties and the intermolecular bonding and crystalline nature of materials. In in situ THz spectroscopy of MAPbI3, we observed a slight blue-shift in frequency of the 2 THz phonon mode as temperatures increase across the tetragonal-cubic structural phase transition. For MAPbI3 with the graphene top electrode, no noticeable frequency shift is observed until the temperature reaches the maximum operating temperature of solar cells (85 °C). Phonon frequency shift is sensitive to the strain-induced tilt of PbI6 octahedra and our results indicate that graphene forms a stable interface with MAPbI3 and is also effective in suppression of the undesirable phase transition. Meanwhile, for MAPbI3 coupled with the AgNW bottom electrode, the THz conductivity was found to be as low as that of the MAPbI3 single layer, attributed to the chemical reaction between Ag atoms and iodide ions. The THz conductivity is greatly increased when an ultrathin Al2O3 interlayer is introduced to cover the AgNW network via the atomic layer deposition (ALD) method. ALD of Al2O3 on the AgNW surfaces at low temperature guarantees a conformal coating, which strongly affects the ohmic contacts between the NWs.  Our results demonstrate the advantage of THz spectroscopy for the comprehensive analysis of thermal and chemical stabilities of perovskites associated with the electrode materials.
AlOlayer, graphene top electrode, hybrid organic-inorganic perovskites, silver nanowire bottom electrode, terahertz spectroscopy, tetragonal-to-cubic phase transition
1944-8244
9224-9231
Huang, Zhi-Wei
27b2b7fc-faff-41f4-b442-bf06a7a35b55
Hong, Yu-Heng
afd32fe5-b67b-4ebe-95da-ee230639f053
Du, Yi-Jheng
ad00500a-6b0e-4685-88ca-1d0edfb8f9bf
Kuo, Ting-Jui
2876105d-3e23-4268-b9d1-7f1ceaed18f2
Huang, Kevin Chung-Che
825f7447-6d02-48f6-b95a-fa33da71f106
Kao, Tsung Sheng
d23d74e6-ca63-44f5-98ce-bf95d096014d
Ahn, Hyeyoung
fd4c8a49-acd7-41ab-90da-ac24b0ac6e94
Huang, Zhi-Wei
27b2b7fc-faff-41f4-b442-bf06a7a35b55
Hong, Yu-Heng
afd32fe5-b67b-4ebe-95da-ee230639f053
Du, Yi-Jheng
ad00500a-6b0e-4685-88ca-1d0edfb8f9bf
Kuo, Ting-Jui
2876105d-3e23-4268-b9d1-7f1ceaed18f2
Huang, Kevin Chung-Che
825f7447-6d02-48f6-b95a-fa33da71f106
Kao, Tsung Sheng
d23d74e6-ca63-44f5-98ce-bf95d096014d
Ahn, Hyeyoung
fd4c8a49-acd7-41ab-90da-ac24b0ac6e94

Huang, Zhi-Wei, Hong, Yu-Heng, Du, Yi-Jheng, Kuo, Ting-Jui, Huang, Kevin Chung-Che, Kao, Tsung Sheng and Ahn, Hyeyoung (2021) Terahertz analysis of CH3NH3PbI3 perovskites associated with graphene and silver nanowire electrodes. ACS Applied Materials and Interfaces, 13 (7), 9224-9231. (doi:10.1021/acsami.0c21805).

Record type: Article

Abstract

In order to investigate the thermal and chemical (in)stabilities of MAPbI3 incorporated with graphene and silver nanowire (AgNW) electrodes, we employed the terahertz (THz) time-domain spectroscopy, which has a unique ability to deliver the information of electrical properties and the intermolecular bonding and crystalline nature of materials. In in situ THz spectroscopy of MAPbI3, we observed a slight blue-shift in frequency of the 2 THz phonon mode as temperatures increase across the tetragonal-cubic structural phase transition. For MAPbI3 with the graphene top electrode, no noticeable frequency shift is observed until the temperature reaches the maximum operating temperature of solar cells (85 °C). Phonon frequency shift is sensitive to the strain-induced tilt of PbI6 octahedra and our results indicate that graphene forms a stable interface with MAPbI3 and is also effective in suppression of the undesirable phase transition. Meanwhile, for MAPbI3 coupled with the AgNW bottom electrode, the THz conductivity was found to be as low as that of the MAPbI3 single layer, attributed to the chemical reaction between Ag atoms and iodide ions. The THz conductivity is greatly increased when an ultrathin Al2O3 interlayer is introduced to cover the AgNW network via the atomic layer deposition (ALD) method. ALD of Al2O3 on the AgNW surfaces at low temperature guarantees a conformal coating, which strongly affects the ohmic contacts between the NWs.  Our results demonstrate the advantage of THz spectroscopy for the comprehensive analysis of thermal and chemical stabilities of perovskites associated with the electrode materials.

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Terahertz Analysis of CH3NH3PbI3 Perovskites Associated with Graphene and Silver Nanowire Electrodes - Accepted Manuscript
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e-pub ahead of print date: 10 February 2021
Published date: 24 February 2021
Additional Information: Funding Information: This work has been financially supported by the Ministry of Science and Technology (MOST 107-2112-M-009-015-MY3, MOST 107-2923-M-009-003-MY3, and MOST 107-2221-E-009-116-MY3) of Taiwan and the Future Photonics Manufacturing Hub (EPSRC EP/N00762X/1) and the Chalcogenide Photonic Technologies (v) at the University of Southampton, United Kingdom. Publisher Copyright: © 2021 American Chemical Society Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
Keywords: AlOlayer, graphene top electrode, hybrid organic-inorganic perovskites, silver nanowire bottom electrode, terahertz spectroscopy, tetragonal-to-cubic phase transition

Identifiers

Local EPrints ID: 448341
URI: http://eprints.soton.ac.uk/id/eprint/448341
ISSN: 1944-8244
PURE UUID: e9b4b388-afbd-41ea-b3e1-181966bd8050
ORCID for Kevin Chung-Che Huang: ORCID iD orcid.org/0000-0003-3471-2463

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Date deposited: 20 Apr 2021 16:34
Last modified: 12 Nov 2024 05:02

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Contributors

Author: Zhi-Wei Huang
Author: Yu-Heng Hong
Author: Yi-Jheng Du
Author: Ting-Jui Kuo
Author: Kevin Chung-Che Huang ORCID iD
Author: Tsung Sheng Kao
Author: Hyeyoung Ahn

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