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An energetically-autonomous robotic tadpole with single membrane stomach and tail

An energetically-autonomous robotic tadpole with single membrane stomach and tail
An energetically-autonomous robotic tadpole with single membrane stomach and tail
We present an energetically autonomous robotic tadpole that uses a single membrane component for both electrical energy generation and propulsive actuation. The coupling of this small bio-inspired power source to a bio-inspired actuator demonstrates the first generation design for an energetically autonomous swimming robot consisting of a single membrane. An ionic polymer metal composite (IPMC) with a Nafion polymer layer is demonstrated in a novel application as the ion exchange membrane and anode and cathode electrode of a microbial fuel cell (MFC), whilst being used concurrently as an artificial muscle tail. In contrast to previous work using stacked units for increased voltage, a single MFC with novel, 0.88ml anode chamber architecture is used to generate suitable voltages for driving artificial muscle actuation, with minimal step up. This shows the potential of the small forces generated by IPMCs for propulsion of a bio-energy source. The work demonstrates great potential for reducing the mass and complexity of bio-inspired autonomous robots. The performance of the IPMC as an ion exchange membrane is compared to two conventional ion exchange membranes, Nafion and cation exchange membrane (CEM). The MFC anode and cathode show increased resistance following inclusion within the MFC environment.
Philamore, Hemma
d0a1cf2b-226d-4600-ae34-d220a1cc3767
Rossiter, Jonathan
64caa0df-19e0-40c8-ab69-7021de665c39
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Philamore, Hemma
d0a1cf2b-226d-4600-ae34-d220a1cc3767
Rossiter, Jonathan
64caa0df-19e0-40c8-ab69-7021de665c39
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13

Philamore, Hemma, Rossiter, Jonathan and Ieropoulos, Ioannis (2015) An energetically-autonomous robotic tadpole with single membrane stomach and tail. Conference on Biomimetic and Biohybrid Systems (pp. 366–378). (doi:10.1007/978-3-319-22979-9_37).

Record type: Conference or Workshop Item (Paper)

Abstract

We present an energetically autonomous robotic tadpole that uses a single membrane component for both electrical energy generation and propulsive actuation. The coupling of this small bio-inspired power source to a bio-inspired actuator demonstrates the first generation design for an energetically autonomous swimming robot consisting of a single membrane. An ionic polymer metal composite (IPMC) with a Nafion polymer layer is demonstrated in a novel application as the ion exchange membrane and anode and cathode electrode of a microbial fuel cell (MFC), whilst being used concurrently as an artificial muscle tail. In contrast to previous work using stacked units for increased voltage, a single MFC with novel, 0.88ml anode chamber architecture is used to generate suitable voltages for driving artificial muscle actuation, with minimal step up. This shows the potential of the small forces generated by IPMCs for propulsion of a bio-energy source. The work demonstrates great potential for reducing the mass and complexity of bio-inspired autonomous robots. The performance of the IPMC as an ion exchange membrane is compared to two conventional ion exchange membranes, Nafion and cation exchange membrane (CEM). The MFC anode and cathode show increased resistance following inclusion within the MFC environment.

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More information

Published date: 24 July 2015
Venue - Dates: Conference on Biomimetic and Biohybrid Systems (pp. 366–378), 2015-07-24

Identifiers

Local EPrints ID: 454756
URI: http://eprints.soton.ac.uk/id/eprint/454756
DOI: doi:10.1007/978-3-319-22979-9_37
PURE UUID: 2b4b2aa7-438b-49a6-8b31-90eec7cae7aa
ORCID for Ioannis Ieropoulos: ORCID iD orcid.org/0000-0002-9641-5504

Catalogue record

Date deposited: 22 Feb 2022 17:42
Last modified: 17 Mar 2024 04:10

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Contributors

Author: Hemma Philamore
Author: Jonathan Rossiter
Author: Ioannis Ieropoulos ORCID iD

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