Here today, gone tomorrow: biodegradable soft robots
Here today, gone tomorrow: biodegradable soft robots
One of the greatest challenges to modern technologies is what to do with them when they go irreparably wrong or come to the end of their productive lives. The convention, since the development of modern civilisation, is to discard a broken item and then procure a new one. In the 20th century enlightened environmentalists campaigned for recycling and reuse (R and R). R and R has continued to be an important part of new technology development, but there is still a huge problem of non-recyclable materials being dumped into landfill and being discarded in the environment. The challenge is even greater for robotics, a field which will impact on all aspects of our lives, where discards include motors, rigid elements and toxic power supplies and batteries. One novel solution is the biodegradable robot, an active physical machine that is composed of biodegradable materials and which degrades to nothing when released into the environment. In this paper we examine the potential and realities of biodegradable robotics, consider novel solutions to core components such as sensors, actuators and energy scavenging, and give examples of biodegradable robotics fabricated from everyday, and not so common, biodegradable electroactive materials. The realisation of truly biodegradable robots also brings entirely new deployment, exploration and bio-remediation capabilities: why track and recover a few large non-biodegradable robots when you could speculatively release millions of biodegradable robots instead? We will consider some of these exciting developments and explore the future of this new field.
biodegradable robotics, biodegradable electroactive polymers, soft robotics, bio-remediation
Rossiter, Jonathan
64caa0df-19e0-40c8-ab69-7021de665c39
Winfield, Jonathan
e81f4fad-1433-4c6a-9723-24a14f172896
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
2016
Rossiter, Jonathan
64caa0df-19e0-40c8-ab69-7021de665c39
Winfield, Jonathan
e81f4fad-1433-4c6a-9723-24a14f172896
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Rossiter, Jonathan, Winfield, Jonathan and Ieropoulos, Ioannis
(2016)
Here today, gone tomorrow: biodegradable soft robots.
Proceedings of SPIE, 9798, [97981S].
(doi:10.1117/12.2220611).
Abstract
One of the greatest challenges to modern technologies is what to do with them when they go irreparably wrong or come to the end of their productive lives. The convention, since the development of modern civilisation, is to discard a broken item and then procure a new one. In the 20th century enlightened environmentalists campaigned for recycling and reuse (R and R). R and R has continued to be an important part of new technology development, but there is still a huge problem of non-recyclable materials being dumped into landfill and being discarded in the environment. The challenge is even greater for robotics, a field which will impact on all aspects of our lives, where discards include motors, rigid elements and toxic power supplies and batteries. One novel solution is the biodegradable robot, an active physical machine that is composed of biodegradable materials and which degrades to nothing when released into the environment. In this paper we examine the potential and realities of biodegradable robotics, consider novel solutions to core components such as sensors, actuators and energy scavenging, and give examples of biodegradable robotics fabricated from everyday, and not so common, biodegradable electroactive materials. The realisation of truly biodegradable robots also brings entirely new deployment, exploration and bio-remediation capabilities: why track and recover a few large non-biodegradable robots when you could speculatively release millions of biodegradable robots instead? We will consider some of these exciting developments and explore the future of this new field.
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Published date: 2016
Keywords:
biodegradable robotics, biodegradable electroactive polymers, soft robotics, bio-remediation
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Local EPrints ID: 454399
URI: http://eprints.soton.ac.uk/id/eprint/454399
ISSN: 0277-786X
PURE UUID: 37612a9a-bf5d-470b-a5ba-4915aa35bbb7
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Date deposited: 09 Feb 2022 17:31
Last modified: 17 Mar 2024 04:10
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Author:
Jonathan Rossiter
Author:
Jonathan Winfield
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