AI Article Synopsis
- Implantable neural devices that record neuron activity offer insights into brain functioning but face challenges during vigorous activities due to brain deformation.* -
- Effective neural devices need a combination of low modulus, low interfacial impedance, and high electrical conductivity, which currently contradict each other in existing materials.* -
- A new soft fiber neural device, designed like an axon, successfully tracks individual neurons in active animals by using a conductive gel fiber, achieving optimal properties for stable performance in challenging conditions.*
Article Abstract
Implantable neural devices that record neurons in various states, including static states, light activities such as walking, and vigorous activities such as running, offer opportunities for understanding brain functions and dysfunctions. However, recording neurons under vigorous activities remains a long-standing challenge because it leads to intense brain deformation. Thus, three key requirements are needed simultaneously for neural devices, that is, low modulus, low specific interfacial impedance, and high electrical conductivity, to realize stable device/brain interfaces and high-quality transmission of neural signals. However, they always contradict each other in current material strategies. Here, a soft fiber neural device capable of stably tracking individual neurons in the deep brain of medium-sized animals under vigorous activity is reported. Inspired by the axon architecture, this fiber neural device is constructed with a conductive gel fiber possessing a network-in-liquid structure using conjugated polymers and liquid matrices and then insulated with soft fluorine rubber. This strategy reconciles the contradictions and simultaneously confers the fiber neural device with low modulus (300 kPa), low specific impedance (579 kΩ µm), and high electrical conductivity (32 700 S m) - ≈1-3 times higher than hydrogels. Stable single-unit spike tracking in running cats, which promises new opportunities for neuroscience is demonstrated.
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| http://dx.doi.org/10.1002/adma.202407874 | DOI Listing |
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