Asynchronous charge carrier injection in perovskite light-emitting transistors
Unbalanced mobility and injection of charge carriers in metal-halide perovskite light-emitting devices pose severe limitations to the efficiency and response time of the electroluminescence. Modulation of gate bias in methylammonium lead iodide light-emitting transistors has proven effective in incr...
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sg-ntu-dr.10356-1711572024-06-25T02:40:12Z Asynchronous charge carrier injection in perovskite light-emitting transistors Klein, Maciej Blecharz, Krzysztof Cheng, Bryan Wei Hao Bruno, Annalisa Soci, Cesare School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) The Photonics Institute Energy Research Institute @ NTU (ERI@N) Physics Capacitive Effects Electroluminescence Modulations Unbalanced mobility and injection of charge carriers in metal-halide perovskite light-emitting devices pose severe limitations to the efficiency and response time of the electroluminescence. Modulation of gate bias in methylammonium lead iodide light-emitting transistors has proven effective in increasing the brightness of light emission up to MHz frequencies. In this work, a new approach is developed to improve charge carrier injection and enhance electroluminescence of perovskite light-emitting transistors by independent control of drain–source and gate–source bias voltages to compensate for space-charge effects. Optimization of bias pulse synchronization induces a fourfold enhancement of the emission intensity. Interestingly, the optimal phase delay between biasing pulses depends on modulation frequency due to the capacitive nature of the devices, which is well captured by numerical simulations of an equivalent electrical circuit. These results provide new insights into the electroluminescence dynamics of AC-driven perovskite light-emitting transistors and demonstrate an effective strategy to optimize device performance through independent control of the amplitude, frequency, and phase of the biasing pulses. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Published version Research was supported by the A*STAR‐AME programmatic fund on Nanoantenna Spatial Light Modulators for Next‐Gen Display Technologies (grant no. A18A7b0058) and the Singapore Ministry of Education (grant no. T2EP50222–0019). K.B. acknowledges support from the IDUB Ventus‐Hydrogenii Gdansk Tech Program (grant no. DEC‐3/2022/IDUB/VHR). 2023-10-16T04:41:51Z 2023-10-16T04:41:51Z 2023 Journal Article Klein, M., Blecharz, K., Cheng, B. W. H., Bruno, A. & Soci, C. (2023). Asynchronous charge carrier injection in perovskite light-emitting transistors. Advanced Electronic Materials, 9(10), 2300270-. https://dx.doi.org/10.1002/aelm.202300270 2199-160X https://hdl.handle.net/10356/171157 10.1002/aelm.202300270 2-s2.0-85165560551 10 9 2300270 en A18A7b0058 T2EP50222–0019 Advanced Electronic Materials 10.21979/N9/FPXQPA © 2023 The Authors. Advanced Electronic Materials published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Physics Capacitive Effects Electroluminescence Modulations |
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Physics Capacitive Effects Electroluminescence Modulations Klein, Maciej Blecharz, Krzysztof Cheng, Bryan Wei Hao Bruno, Annalisa Soci, Cesare Asynchronous charge carrier injection in perovskite light-emitting transistors |
| description |
Unbalanced mobility and injection of charge carriers in metal-halide perovskite light-emitting devices pose severe limitations to the efficiency and response time of the electroluminescence. Modulation of gate bias in methylammonium lead iodide light-emitting transistors has proven effective in increasing the brightness of light emission up to MHz frequencies. In this work, a new approach is developed to improve charge carrier injection and enhance electroluminescence of perovskite light-emitting transistors by independent control of drain–source and gate–source bias voltages to compensate for space-charge effects. Optimization of bias pulse synchronization induces a fourfold enhancement of the emission intensity. Interestingly, the optimal phase delay between biasing pulses depends on modulation frequency due to the capacitive nature of the devices, which is well captured by numerical simulations of an equivalent electrical circuit. These results provide new insights into the electroluminescence dynamics of AC-driven perovskite light-emitting transistors and demonstrate an effective strategy to optimize device performance through independent control of the amplitude, frequency, and phase of the biasing pulses. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Klein, Maciej Blecharz, Krzysztof Cheng, Bryan Wei Hao Bruno, Annalisa Soci, Cesare |
| format |
Article |
| author |
Klein, Maciej Blecharz, Krzysztof Cheng, Bryan Wei Hao Bruno, Annalisa Soci, Cesare |
| author_sort |
Klein, Maciej |
| title |
Asynchronous charge carrier injection in perovskite light-emitting transistors |
| title_short |
Asynchronous charge carrier injection in perovskite light-emitting transistors |
| title_full |
Asynchronous charge carrier injection in perovskite light-emitting transistors |
| title_fullStr |
Asynchronous charge carrier injection in perovskite light-emitting transistors |
| title_full_unstemmed |
Asynchronous charge carrier injection in perovskite light-emitting transistors |
| title_sort |
asynchronous charge carrier injection in perovskite light-emitting transistors |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171157 |
| _version_ |
1814047012838965248 |