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Towards artificial proprioception from artificial muscles constituted by self-sensing multi-step electrochemical macromolecular motors

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Abstracts Many life functions emerge from bio-electro-chemical reactions involving macromolecular motors, exchange of ions and water triggered by nervous (electric) pulses. Muscles are natural electro-chemical motors sensing by themselves the… Click to show full abstract

Abstracts Many life functions emerge from bio-electro-chemical reactions involving macromolecular motors, exchange of ions and water triggered by nervous (electric) pulses. Muscles are natural electro-chemical motors sensing by themselves the working physical and chemical conditions: multi-sensing motors. Here we review how by electrochemical reactions conducting polymers and other electroactive materials give artificial muscles replicating both, the dense gel composition and multi-functionality of the muscle’ cell. They are Faradaic devices: the flowing current controls the movement rate and the consumed charge defines the displacement amplitude. The consumed energy (or any of its components: muscle potential, charge or current) responds to, adapts to and senses, at any time, the working mechanical, chemical, thermal and electrical conditions: multi-sensing or self-awareness. The equations describing self-awareness were attained from the basic chemical and electrochemical kinetics and checked by experimental results. Translated to Biology the sensing equations can describe: muscle's fatigue, the energy that coldblooded animals can extract from the ambient, why muscles only work by contraction, how muscles generate each nervous pulses and how many packages of quantitative information they translate to the brain. Only two connecting wires include, at any time, actuating and sensing signals: the system computer-potentiostat/two wires/artificial muscle replicates brain/motor neuron-sensory neuron/muscle. That multi-functionality is originated by only one reaction driving the cooperative actuation multi-sensing and multi-step electrochemical macromolecular motors. None similar multi-sensing motor exists in nowadays technology. The way is open to develop self-awareness devices and proprioceptive robots.

Keywords: sensing multi; multi sensing; macromolecular motors; artificial muscles; step electrochemical; multi step

Journal Title: Electrochimica Acta
Year Published: 2021

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