Optical simulations in perovskite devices: a critical analysis
With halide perovskite gaining popularity for optoelectronics application, it is imperative to push for device stacks with minimum optical losses and maximum efficiency. However, the vast plethora of material systems and device architectures available through computerized combinatorial analysis made...
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sg-ntu-dr.10356-1704372023-09-12T04:35:35Z Optical simulations in perovskite devices: a critical analysis Kar, Shaoni Kaushal, Ken Yantara, Natalia Mhaisalkar, Subodh Gautam School of Electrical and Electronic Engineering School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Electrical and electronic engineering Engineering::Materials Perovskite Halide Optical Simulation With halide perovskite gaining popularity for optoelectronics application, it is imperative to push for device stacks with minimum optical losses and maximum efficiency. However, the vast plethora of material systems and device architectures available through computerized combinatorial analysis made experimental trials for each proposed possibility impractical. Thus, high-throughput optical simulations in conjunction to comprehensive electronic modeling are necessary to predict outputs and minimize experimental efforts involved. Here, we aim to critically summarize some of the most intuitive and efficient approaches to optical modeling for perovskite-based devices and work toward a consensus on the best avenues to utilize these models. First, the nuances of ellipsometry measurements for ascertaining accurate optical constants of perovskite are discussed. Modeling techniques (such as ray tracing, transfer matrices, finite difference time domain, and finite element methods) to simulate the optical interaction within the device are then elaborated focusing on their advantages and limitations. Next, the primary challenges to attaining greater accuracy of optical constant data as well as insights on the future trends are identified. Finally, an interactive flowchart-based decision tree to ascertain the best simulation technique for a given optoelectronic device architecture is built, which will greatly help experimental scientists and beginners in optical modeling. Nanyang Technological University National Research Foundation (NRF) This research was funded by National Research Foundation, Prime Minister’s Office, Singapore under its Competitive Research Programme (CRP Award No. NRF-CRP14-2014-03). S. K. acknowledges support from the NTU Research Scholarship. K.K. acknowledges the NTU-India Connect Research Internship Programme. 2023-09-12T04:35:35Z 2023-09-12T04:35:35Z 2022 Journal Article Kar, S., Kaushal, K., Yantara, N. & Mhaisalkar, S. G. (2022). Optical simulations in perovskite devices: a critical analysis. ACS Photonics, 9(10), 3196-3214. https://dx.doi.org/10.1021/acsphotonics.2c00484 2330-4022 https://hdl.handle.net/10356/170437 10.1021/acsphotonics.2c00484 2-s2.0-85139389871 10 9 3196 3214 en NRF-CRP14-2014-03 ACS Photonics © 2022 American Chemical Society. All rights reserved. |
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Engineering::Electrical and electronic engineering Engineering::Materials Perovskite Halide Optical Simulation Kar, Shaoni Kaushal, Ken Yantara, Natalia Mhaisalkar, Subodh Gautam Optical simulations in perovskite devices: a critical analysis |
| description |
With halide perovskite gaining popularity for optoelectronics application, it is imperative to push for device stacks with minimum optical losses and maximum efficiency. However, the vast plethora of material systems and device architectures available through computerized combinatorial analysis made experimental trials for each proposed possibility impractical. Thus, high-throughput optical simulations in conjunction to comprehensive electronic modeling are necessary to predict outputs and minimize experimental efforts involved. Here, we aim to critically summarize some of the most intuitive and efficient approaches to optical modeling for perovskite-based devices and work toward a consensus on the best avenues to utilize these models. First, the nuances of ellipsometry measurements for ascertaining accurate optical constants of perovskite are discussed. Modeling techniques (such as ray tracing, transfer matrices, finite difference time domain, and finite element methods) to simulate the optical interaction within the device are then elaborated focusing on their advantages and limitations. Next, the primary challenges to attaining greater accuracy of optical constant data as well as insights on the future trends are identified. Finally, an interactive flowchart-based decision tree to ascertain the best simulation technique for a given optoelectronic device architecture is built, which will greatly help experimental scientists and beginners in optical modeling. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Kar, Shaoni Kaushal, Ken Yantara, Natalia Mhaisalkar, Subodh Gautam |
| format |
Article |
| author |
Kar, Shaoni Kaushal, Ken Yantara, Natalia Mhaisalkar, Subodh Gautam |
| author_sort |
Kar, Shaoni |
| title |
Optical simulations in perovskite devices: a critical analysis |
| title_short |
Optical simulations in perovskite devices: a critical analysis |
| title_full |
Optical simulations in perovskite devices: a critical analysis |
| title_fullStr |
Optical simulations in perovskite devices: a critical analysis |
| title_full_unstemmed |
Optical simulations in perovskite devices: a critical analysis |
| title_sort |
optical simulations in perovskite devices: a critical analysis |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170437 |
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1779156675647766528 |