Yonsei Advanced Science Institute

Logo and Menu

Research

Publications

Dekui Song, Xueli Li, Myeongjin Jang, Yangjin Lee, Yu Zhai, Wenya Hu, Hongping Yan, Song Zhang, Luyao Chen, Chunming Lu, Kwanpyo Kim, and Nan Liu*
An Ultra-Thin MXene Film for Multimodal Sensing of Neuroelectrical Signals with Artifacts Removal
Adv. Mater., 35 (48), 2304956
Date: Aug 2, 2023

Neuroelectrical signals transmitted onto the skin tend to decay to an extremely weak level, making them highly susceptible to interference from the environment and body movement. Meanwhile, for comprehensively understanding cognitive nerve conduction, multimodal sensing of neural signals, such as magnetic resonance imaging (MRI) and functional near-infrared spectroscopy (fNIRS), is highly required. Previous metal or polymer conductors cannot either provide a seamless on-skin feature for accurate sensing of neuroelectrical signals or be compatible with multimodal imaging techniques without opto- and magnet- artifacts. Herein, a ≈20 nm thick MXene film that is able to simultaneously detect electrophysiological signals and perform imaging by MRI and fNIRS with high fidelity is reported. The ultrathin film is made of crosslinked Ti3C2Tx film via poly (3,4-ethylene dioxythiophene): polystyrene sulfonate (PEDOT: PSS), showing a record high electroconductivity and transparency combination (11 000 S cm−1@89%). Among them, PEDOT: PSS not only plays a cross-linking role to stabilize MXene film but also shortens the interlayer distance for effective charge transfer and high transparency. Thus, it can achieve a low interfacial impedance with skin or neural surfaces for accurate recording of electrophysiological signals with low motion artifacts. Besides, the high transparency originating from the ultrathin feature leads to good compatibility with fNIRS and MRI without optical and magnetic artifacts, enabling multimodal cognitive neural monitoring during prolonged use.

Copyright and Address

  • ADDRESS IBS Hall 50 Yonsei-ro, Seodaemun-gu, Seoul 03722
  • TEL +82-2-2123-4769   FAX +82-2-2123-4606
  • E-MAIL ibs@yonsei.ac.kr
  • Copyright © IBS Center for NanoMedicine,YONSEI UNIV.
    ALL RIGHTS RESERVED.

Display Page Loading Image

Top