Kui Liang scite author profile

Intrinsically stretchable bioelectronic devices based on soft and conducting organic materials have been regarded as the ideal interface for seamless and biocompatible integration with the human body. A remaining challenge is to combine high mechanical robustness with good electrical conduction, especially when patterned at small feature sizes. We develop a molecular engineering strategy based on a topological supramolecular network, which allows for the decoupling of competing effects from multiple molecular building blocks to meet complex requirements. We obtained simultaneously high conductivity and crack-onset strain in a physiological environment, with direct photopatternability down to the cellular scale. We further collected stable electromyography signals on soft and malleable octopus and performed localized neuromodulation down to single-nucleus precision for controlling organ-specific activities through the delicate brainstem.

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Nickel oxide/carbon nanotubes nanocomposite for electrochemical capacitance

Lee

Liang

et al. 2005

Synthetic Metals

231

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Wireless, closed-loop, smart bandage with integrated sensors and stimulators for advanced wound care and accelerated healing

et al. 2022

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Al2O3 coating on Li1.256Ni0.198Co0.082Mn0.689O2.25 with spinel-structure interface layer for superior performance lithium ion batteries

Wen

Liang

Tian

et al. 2018

Electrochimica Acta

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Human joint enabled flexible self-sustainable sweat sensors

Chang

Gai

et al. 2022

Nano Energy

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Kui Liang

Topological supramolecular network enabled high-conductivity, stretchable organic bioelectronics

Nickel oxide/carbon nanotubes nanocomposite for electrochemical capacitance

Wireless, closed-loop, smart bandage with integrated sensors and stimulators for advanced wound care and accelerated healing

Al2O3 coating on Li1.256Ni0.198Co0.082Mn0.689O2.25 with spinel-structure interface layer for superior performance lithium ion batteries

Human joint enabled flexible self-sustainable sweat sensors

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