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Bioinspired carbon nanotube-based nanofluidic ionic transistor with ultrahigh switching capabilities for logic circuits.

Wenchao LiuTingting MeiZhouwen CaoChun LiYitian WuLi WangGuoheng XuYuanxia ChenYou ZhouSenyao WangYahui XueYanhao YuXiang-Yu KongRuotian ChenBin TuKai Xiao
Published in: Science advances (2024)
The voltage-gated ion channels, also known as ionic transistors, play substantial roles in biological systems and ion-ion selective separation. However, implementing the ultrafast switchable capabilities and polarity switching of ionic transistors remains a challenge. Here, we report a nanofluidic ionic transistor based on carbon nanotubes, which exhibits an on/off ratio of 10 4 at operational gate voltage as low as 1 V. By controlling the morphology of carbon nanotubes, both unipolar and ambipolar ionic transistors are realized, and their on/off ratio can be further improved by introducing an Al 2 O 3 dielectric layer. Meanwhile, this ionic transistor enables the polarity switching between p-type and n-type by controlled surface properties of carbon nanotubes. The implementation of constructing ionic circuits based on ionic transistors is demonstrated, which enables the creation of NOT, NAND, and NOR logic gates. The ionic transistors are expected to have profound implications for low-energy consumption computing devices and brain-machine interfacing.
Keyphrases
  • carbon nanotubes
  • ionic liquid
  • solid state
  • healthcare
  • primary care
  • multiple sclerosis