2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators
Tunable and switchable film bulk acoustic resonators (FBARs) with the capability of dynamically adjusting their resonant frequencies hold significant promise for advanced multi-band radio frequency (RF) communication systems. However, tunable and switchable FBARs based on conventional thin ferroelec...
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sg-ntu-dr.10356-1821772025-01-13T06:55:52Z 2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators Sun, Jiayi Cai, Weifan Yang, Yang Zhuang, Yihao Zhang, Qing School of Electrical and Electronic Engineering Centre for Micro-/Nano-Electronics UMI 3288 CINTRA CNRS-NTU-THALES Engineering 2D material Ferroelectricity Tunable and switchable film bulk acoustic resonators (FBARs) with the capability of dynamically adjusting their resonant frequencies hold significant promise for advanced multi-band radio frequency (RF) communication systems. However, tunable and switchable FBARs based on conventional thin ferroelectric materials face several challenges in meeting the demands of advanced RF applications. Specifically, submicron-thick ferroelectric materials suffer from degradation in piezoelectric performance due to the strong scattering of acoustic waves caused by surface defects, as well as the inconsistency in crystal orientation. Recent advances in 2D ferroelectric materials create new opportunities for high-performance tunable and switchable FBARs. Here, the first batch of FBAR chips based on 2D α-In2Se3 flakes is reported. The α-In2Se3-based FBARs are normally under the on-state and possess a small off-voltage of −4 V. A tuning range of 26 MHz is achieved with a control voltage from −2 to 4 V at the resonant frequency of 8.6 GHz. To the best of the author's knowledge, this is the first batch of tunable FBARs that can function beyond the sub-6 GHz band. This work demonstrates for the first time that 2D ferroelectric materials are very promising for high-frequency tunable and switchable FBARs. Ministry of Education (MOE) Published version This research was supported by the Ministry of Education, Singapore, under its Academic Research Fund Tier2 (MOE-T2EP50223-0008) and Tier 1 (RG131/22), Singapore. 2025-01-13T06:55:52Z 2025-01-13T06:55:52Z 2024 Journal Article Sun, J., Cai, W., Yang, Y., Zhuang, Y. & Zhang, Q. (2024). 2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators. Advanced Electronic Materials, 2400498-. https://dx.doi.org/10.1002/aelm.202400498 2199-160X https://hdl.handle.net/10356/182177 10.1002/aelm.202400498 2-s2.0-85209813166 2400498 en MOE-T2EP50223-0008 RG131/22 Advanced Electronic Materials © 2024 The Author(s). 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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Engineering 2D material Ferroelectricity |
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Engineering 2D material Ferroelectricity Sun, Jiayi Cai, Weifan Yang, Yang Zhuang, Yihao Zhang, Qing 2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| description |
Tunable and switchable film bulk acoustic resonators (FBARs) with the capability of dynamically adjusting their resonant frequencies hold significant promise for advanced multi-band radio frequency (RF) communication systems. However, tunable and switchable FBARs based on conventional thin ferroelectric materials face several challenges in meeting the demands of advanced RF applications. Specifically, submicron-thick ferroelectric materials suffer from degradation in piezoelectric performance due to the strong scattering of acoustic waves caused by surface defects, as well as the inconsistency in crystal orientation. Recent advances in 2D ferroelectric materials create new opportunities for high-performance tunable and switchable FBARs. Here, the first batch of FBAR chips based on 2D α-In2Se3 flakes is reported. The α-In2Se3-based FBARs are normally under the on-state and possess a small off-voltage of −4 V. A tuning range of 26 MHz is achieved with a control voltage from −2 to 4 V at the resonant frequency of 8.6 GHz. To the best of the author's knowledge, this is the first batch of tunable FBARs that can function beyond the sub-6 GHz band. This work demonstrates for the first time that 2D ferroelectric materials are very promising for high-frequency tunable and switchable FBARs. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Sun, Jiayi Cai, Weifan Yang, Yang Zhuang, Yihao Zhang, Qing |
| format |
Article |
| author |
Sun, Jiayi Cai, Weifan Yang, Yang Zhuang, Yihao Zhang, Qing |
| author_sort |
Sun, Jiayi |
| title |
2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| title_short |
2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| title_full |
2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| title_fullStr |
2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| title_full_unstemmed |
2D α-In2Se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| title_sort |
2d α-in2se3 flakes for high frequency tunable and switchable film bulk acoustic wave resonators |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182177 |
| _version_ |
1821237218506702848 |