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Team:Cambridge/Human Practices
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We spent one day early in the project imagining how engineered artificial bioluminescence might be used in the future. This workshop, led by Daisy Ginsberg from the Royal College of Arts, made us think about where research into bioluminescence might one day bring us. How would omnipresent bioluminescence affect the way we perceive light in our living environment? Will engineered bioluminescence find its way into consumer products or remain in highly specialised applications and novelty items? Bioluminescent light has a broad spectrum and is emitted volumetrically. How can we use these different qualities of light compared to conventional sources for art, design and architecture? | We spent one day early in the project imagining how engineered artificial bioluminescence might be used in the future. This workshop, led by Daisy Ginsberg from the Royal College of Arts, made us think about where research into bioluminescence might one day bring us. How would omnipresent bioluminescence affect the way we perceive light in our living environment? Will engineered bioluminescence find its way into consumer products or remain in highly specialised applications and novelty items? Bioluminescent light has a broad spectrum and is emitted volumetrically. How can we use these different qualities of light compared to conventional sources for art, design and architecture? | ||
| - | We split the team into three groups, each of which went on to explore their own ideas about the future of bioluminescence: | + | We split the team into three groups, each of which went on to explore their own ideas about the future of bioluminescence: |
==Applications== | ==Applications== | ||
| - | Our thoughts on using biological light sources led us to consider the concept of sustainability. Would our lighting be better than conventional devices in this area? and where might it be useful? We also considered the prospect of using our light production in biosensors | + | Our thoughts on using biological light sources led us to consider the concept of sustainability. Would our lighting be better than conventional devices in this area? and where might it be useful? |
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| + | We also considered the prospect of using our light production in biosensors after a talk from David Grimshaw of Practical Action. Dr. Grimshaw has worked with the issues of contamination of water sources with arsenic in Bangladesh and mercury in Nepal. He informed us that local people wished for a portable device that was easy to use such that testing of wells could be performed by members of the community and a quantitative digital readout would be preferable. Light production as an output of a biological circuit could be detected by a sensor in an electrical system to give a digital readout. Our biobricks could bridge the gap between biological and electrical circuits. Further investigation into the practicalities of this led to the development of the e.glometer | ||
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| + | would give a quantitative readout us that when investigating Coupled with a light sensor our parts could provide a bridge between biological and electrical circuits. | ||
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==Knowledge Recycling== | ==Knowledge Recycling== | ||
Revision as of 23:06, 26 October 2010
Human practises encompasses the social ethical and legal considerations of our work. We imagined how our particular project might impact on peoples lives as well as thinking about the wider issues of the way we practise our science and share our findings.
Futures
We spent one day early in the project imagining how engineered artificial bioluminescence might be used in the future. This workshop, led by Daisy Ginsberg from the Royal College of Arts, made us think about where research into bioluminescence might one day bring us. How would omnipresent bioluminescence affect the way we perceive light in our living environment? Will engineered bioluminescence find its way into consumer products or remain in highly specialised applications and novelty items? Bioluminescent light has a broad spectrum and is emitted volumetrically. How can we use these different qualities of light compared to conventional sources for art, design and architecture?
We split the team into three groups, each of which went on to explore their own ideas about the future of bioluminescence:
Applications
Our thoughts on using biological light sources led us to consider the concept of sustainability. Would our lighting be better than conventional devices in this area? and where might it be useful?
We also considered the prospect of using our light production in biosensors after a talk from David Grimshaw of Practical Action. Dr. Grimshaw has worked with the issues of contamination of water sources with arsenic in Bangladesh and mercury in Nepal. He informed us that local people wished for a portable device that was easy to use such that testing of wells could be performed by members of the community and a quantitative digital readout would be preferable. Light production as an output of a biological circuit could be detected by a sensor in an electrical system to give a digital readout. Our biobricks could bridge the gap between biological and electrical circuits. Further investigation into the practicalities of this led to the development of the e.glometer
would give a quantitative readout us that when investigating Coupled with a light sensor our parts could provide a bridge between biological and electrical circuits.
Knowledge Recycling
Sustainability considerations in end design also led us to consider the sustainability of the way we conduct our research. The theme of recycling echoed strongly throughout or project due to the desire to recycle luciferin substrate in project firefly and more generally with considerations of minimising the environmental impact of our work. Recycling of physical materials is vital for sustainability but do we treat our intellectual property in the same way? Do we give the ideas we have the maximum chance of being taken forward and used to promote further thought rather than reaching intellectual dead ends?
