Team:Valencia/future

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Our Future Vision


How to obtain energy in the cleanest way is one of the most crucial questions to be tackled by Science and Technology. How much time remains for the depletion of natural resources? Can we afford continue with our current energy system?

We are looking forward to develop an environmentally friendly (CO2 sink), zero-energy-cost biological biolamp. We believe that biolamps are a very promising new field of energy with lots of application in different contexts. Bacterial bioluminescence is a source of cold light, which means it is one of the most efficient light producing processes known to mankind as it produces practically NO HEAT!

In this section we want to emphasize the benefits of inverting in such energy systems:



  • It is very promising as a clean, cheap and respectful with the environment way to have light supplied only with the energy of the Sun. Moreover, it will act as a CO2 sink and as an oxygen provider.


  • It can provide autonomous illumination at enclosed vessels far from civilization where supplying energy to produce light can be a difficult task, like for example in ships and long space missions.


  • Very useful in submarines and/or oceanographic submersibles, deep or night diving: It emits a light with an identical wavelength to the one that bioluminescent marine organisms have: it won’t alarm or stress marine creatures.


  • Not only as light producer, our biolamp can also contribute to the CO2/O2 balance for inhabited modules in space, the Moon or Mars. So that it can be considered a good alternative to be used in terraforming projects.


  • If we develop a cell-wise array for the bioluminescent compartment, it would be able to work as “bacterial screens” similar those proposed by the iLCD project (iGEM Valencia team 2009), with application in TVs, cinematography…


  • As a solar powered system (independent from external input of sugars), it is cheaper than older models of bioluminescent lamps.


  • It lacks electrical intermediaries from the light absorption to the light emmision. This means that without inefficient energy transformations between the energy source and the output, the whole system is possibly one of the most energy-efficient path for an illumination source powered by solar-origin energy.



Conclusion:

The project insights new developments in synthetic ecology, such as further interspecific cell-talk and powering modules. The economical, ecological and functional potential results are wide and interesting enough to revolutionize the lighting industry and propel the development of new technologies related to biotechnology.