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Nanomaterial-based microelectrode arrays for in vitro bidirectional brain–computer interfaces: a review

Yaoyao Liu, Shihong Xu, Yan Yang, Kui Zhang, Enhui He, Wei Liang, Jinping Luo, Yirong Wu, Xinxia Cai

2023Microsystems & Nanoengineering57 citationsDOIOpen Access PDF

Abstract

A bidirectional in vitro brain-computer interface (BCI) directly connects isolated brain cells with the surrounding environment, reads neural signals and inputs modulatory instructions. As a noninvasive BCI, it has clear advantages in understanding and exploiting advanced brain function due to the simplified structure and high controllability of ex vivo neural networks. However, the core of ex vivo BCIs, microelectrode arrays (MEAs), urgently need improvements in the strength of signal detection, precision of neural modulation and biocompatibility. Notably, nanomaterial-based MEAs cater to all the requirements by converging the multilevel neural signals and simultaneously applying stimuli at an excellent spatiotemporal resolution, as well as supporting long-term cultivation of neurons. This is enabled by the advantageous electrochemical characteristics of nanomaterials, such as their active atomic reactivity and outstanding charge conduction efficiency, improving the performance of MEAs. Here, we review the fabrication of nanomaterial-based MEAs applied to bidirectional in vitro BCIs from an interdisciplinary perspective. We also consider the decoding and coding of neural activity through the interface and highlight the various usages of MEAs coupled with the dissociated neural cultures to benefit future developments of BCIs.

Topics & Concepts

Brain–computer interfaceMicroelectrodeComputer scienceBiological neural networkMultielectrode arrayNeural codingNeural activityDecoding methodsNanotechnologyMaterials scienceNeuroscienceArtificial intelligenceElectroencephalographyMachine learningChemistryElectrodeBiologyTelecommunicationsPhysical chemistryNeuroscience and Neural EngineeringEEG and Brain-Computer InterfacesNeural dynamics and brain function
Nanomaterial-based microelectrode arrays for in vitro bidirectional brain–computer interfaces: a review | Litcius