Nano-optoelectrodes Integrated with Flexible Multifunctional Fiber Probes by High-Throughput Scalable Fabrication

Metallic nano-optoelectrode arrays can simultaneously serve as nanoelectrodes to increase the electrochemical surface-to-volume ratio for high-performance electrical recording and optical nanoantennas to achieve nanoscale light concentrations for ultrasensitive optical sensing. However, it remains a...

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Veröffentlicht in:ACS applied materials & interfaces 2021-02, Vol.13 (7), p.9156-9165
Hauptverfasser: Jiang, Shan, Song, Junyeob, Zhang, Yujing, Nie, Meitong, Kim, Jongwoon, Marcano, Ana Lopez, Kadlec, Kelly, Mills, William A, Yan, Xiaodong, Liu, Hefei, Tong, Rong, Wang, Han, Kimbrough, Ian F, Sontheimer, Harald, Zhou, Wei, Jia, Xiaoting
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Sprache:eng
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Zusammenfassung:Metallic nano-optoelectrode arrays can simultaneously serve as nanoelectrodes to increase the electrochemical surface-to-volume ratio for high-performance electrical recording and optical nanoantennas to achieve nanoscale light concentrations for ultrasensitive optical sensing. However, it remains a challenge to integrate nano-optoelectrodes with a miniaturized multifunctional probing system for combined electrical recording and optical biosensing in vivo. Here, we report that flexible nano-optoelectrode-integrated multifunctional fiber probes can have hybrid optical–electrical sensing multimodalities, including optical refractive index sensing, surface-enhanced Raman spectroscopy, and electrophysiological recording. By physical vapor deposition of thin metal films through free-standing masks of nanohole arrays, we exploit a scalable nanofabrication process to create nano-optoelectrode arrays on the tips of flexible multifunctional fiber probes. We envision that the development of flexible nano-optoelectrode-integrated multifunctional fiber probes can open significant opportunities by allowing for multimodal monitoring of brain activities with combined capabilities for simultaneous electrical neural recording and optical biochemical sensing at the single-cell level.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.0c19187