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VO<sub>x</sub>-Based Non-Volatile Radio-Frequency Switches for Reconfigurable Filter.


ABSTRACT: Vanadium oxide (VOx) based memristor is a promising candidate for next-generation non-volatile memory and radio-frequency (RF) switches due to its compatibility with wafer-level integration and high-frequency operation. This work demonstrates high-performance VOx memristor with gold and silver electrodes, achieving a higher cutoff frequency compared to previously reported VOx devices. The devices exhibit long retention, high endurance (≈103 cycles), and nanosecond switching speeds, enabling the fabrication of RF switches with a cutoff frequency of ≈4.5 THz, low insertion loss (< 0.46 dB), and high isolation (>20 dB) from 0.1 to 20 GHz with stable operation extended to frequency up to 67 GHz. Leveraging these switches, a reconfigurable X-band bandpass filter whose is realized center frequency is tuned from 8.2 GHz in the OFF state to 7.6 GHz in the ON state, achieving a tunable range of ≈600 MHz. This demonstration paves the way for compact and versatile RF front-ends with improved frequency agility in advanced communication systems.

SUBMITTER: Seo D 

PROVIDER: S-EPMC12376588 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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VO&lt;sub&gt;x&lt;/sub&gt;-Based Non-Volatile Radio-Frequency Switches for Reconfigurable Filter.

Seo Dabin D   Kim Dahyeon D   Ryu Jiyeon J   Pyo Changwoo C   Lee Seungchan S   Yoon Tae-Sik TS   Kim Myungsoo M  

Advanced science (Weinheim, Baden-Wurttemberg, Germany) 20250528 31


Vanadium oxide (VO<sub>x</sub>) based memristor is a promising candidate for next-generation non-volatile memory and radio-frequency (RF) switches due to its compatibility with wafer-level integration and high-frequency operation. This work demonstrates high-performance VO<sub>x</sub> memristor with gold and silver electrodes, achieving a higher cutoff frequency compared to previously reported VO<sub>x</sub> devices. The devices exhibit long retention, high endurance (≈10<sup>3</sup> cycles), an  ...[more]

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