Self-supporting carbon nanotube films as flexible neural interfaces

Advances in neural interface technologies have sought to identify electroactive materials that are able to translate neural depolarisation events into digital signals or modulate neural firing through ionic or electrical stimulation with greater efficiency. An ideal material for neural recording and...

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Published inElectrochimica acta Vol. 295; pp. 253 - 261
Main Authors Krukiewicz, Katarzyna, Janas, Dawid, Vallejo-Giraldo, Catalina, Biggs, Manus J.P.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.02.2019
Elsevier BV
Subjects
Biocompatibility
Carbon nanotubes
Charge injection
CNT
Depolarization
Electrical impedance
Electroactive materials
Flexible electronics
Low resistance
Mechanical properties
Neural interfaces
Neural recording
Neuromodulation
Recording
Stimulation
Storage capacity
CNT
Neural recording
Neural interfaces
Flexible electronics
Neuromodulation
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Abstract Advances in neural interface technologies have sought to identify electroactive materials that are able to translate neural depolarisation events into digital signals or modulate neural firing through ionic or electrical stimulation with greater efficiency. An ideal material for neural recording and/or stimulation should possess low electrical impedance coupled with a high cathodic charge storage capacity (CSCC), charge injection capacity (CIC) and electroactive surface area (ESA), as well as optimal mechanical biomimicry. In this study, we present the robustness of self-supporting CNT films as neural interfaces, combining advantageous electrical and mechanical properties with high cytocompatibility. Films were observed to possess a high CSCC (29.95 ± 0.91 mC cm−2), CIC (352 ± 5 μC V−1 cm−2) and ESA (0.908 ± 0.053 cm2), low impedance (110 Ω at 1 kHz), low resistance (75 ± 13 Ω) and high capacitance (378 ± 9 μF cm−2), and outperformed Pt control electrodes. Self-supporting CNT films were also found to facilitate neuron growth and decrease the presence of reactive astrocytes in a mixed neural cell population. Self-standing CNT films were shown to be promising materials for the design of flexible and cytocompatible neural interfaces. •Self-supporting CNT films are shown as robust neural interfaces.•CNT films combine superior electrical, mechanical and biological properties.•CNT films possess high CSC, CIC and ESA, as well as low resistance.•CNT films facilitate neuron growth and decrease the presence of reactive astrocytes.
AbstractList Advances in neural interface technologies have sought to identify electroactive materials that are able to translate neural depolarisation events into digital signals or modulate neural firing through ionic or electrical stimulation with greater efficiency. An ideal material for neural recording and/or stimulation should possess low electrical impedance coupled with a high cathodic charge storage capacity (CSCC), charge injection capacity (CIC) and electroactive surface area (ESA), as well as optimal mechanical biomimicry. In this study, we present the robustness of self-supporting CNT films as neural interfaces, combining advantageous electrical and mechanical properties with high cytocompatibility. Films were observed to possess a high CSCC (29.95 ± 0.91 mC cm−2), CIC (352 ± 5 μC V−1 cm−2) and ESA (0.908 ± 0.053 cm2), low impedance (110 Ω at 1 kHz), low resistance (75 ± 13 Ω) and high capacitance (378 ± 9 μF cm−2), and outperformed Pt control electrodes. Self-supporting CNT films were also found to facilitate neuron growth and decrease the presence of reactive astrocytes in a mixed neural cell population. Self-standing CNT films were shown to be promising materials for the design of flexible and cytocompatible neural interfaces. •Self-supporting CNT films are shown as robust neural interfaces.•CNT films combine superior electrical, mechanical and biological properties.•CNT films possess high CSC, CIC and ESA, as well as low resistance.•CNT films facilitate neuron growth and decrease the presence of reactive astrocytes.
Advances in neural interface technologies have sought to identify electroactive materials that are able to translate neural depolarisation events into digital signals or modulate neural firing through ionic or electrical stimulation with greater efficiency. An ideal material for neural recording and/or stimulation should possess low electrical impedance coupled with a high cathodic charge storage capacity (CSCC), charge injection capacity (CIC) and electroactive surface area (ESA), as well as optimal mechanical biomimicry. In this study, we present the robustness of self-supporting CNT films as neural interfaces, combining advantageous electrical and mechanical properties with high cytocompatibility. Films were observed to possess a high CSCC (29.95 ± 0.91 mC cm−2), CIC (352 ± 5 μC V−1 cm−2) and ESA (0.908 ± 0.053 cm2), low impedance (110 Ω at 1 kHz), low resistance (75 ± 13 Ω) and high capacitance (378 ± 9 μF cm−2), and outperformed Pt control electrodes. Self-supporting CNT films were also found to facilitate neuron growth and decrease the presence of reactive astrocytes in a mixed neural cell population. Self-standing CNT films were shown to be promising materials for the design of flexible and cytocompatible neural interfaces.
Author Krukiewicz, Katarzyna
Biggs, Manus J.P.
Janas, Dawid
Vallejo-Giraldo, Catalina
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Snippet Advances in neural interface technologies have sought to identify electroactive materials that are able to translate neural depolarisation events into digital...
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SubjectTerms Biocompatibility
Carbon nanotubes
Charge injection
CNT
Depolarization
Electrical impedance
Electroactive materials
Flexible electronics
Low resistance
Mechanical properties
Neural interfaces
Neural recording
Neuromodulation
Recording
Stimulation
Storage capacity
Title Self-supporting carbon nanotube films as flexible neural interfaces
URI https://dx.doi.org/10.1016/j.electacta.2018.10.157
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