band and this robot is responsible for squirting electrolytes on them to allow conduction. it looks as though it is going to drip bits in between but it is doing it very precisely. it between but it is doing it very recisel. ., , between but it is doing it very precisely- between but it is doing it very recisel. ., , ., , precisely. it doesn t make any mistakes- precisely. it doesn t make any mistakes. the precisely. it doesn t make any mistakes. the final precisely. it doesn t make any mistakes. the final step i precisely. it doesn t make any mistakes. the final step is i mistakes. the final step is lamination, mistakes. the final step is lamination, to mistakes. the final step is lamination, to give i mistakes. the final step is lamination, to give the i mistakes. the final step is i lamination, to give the cells custom textures. lamination, to give the cells l custom textures.- and lamination, to give the cells i custom textures.- and he custom textures. pascoe. and
these cells have been shaped to fit a headphone band and this robot is responsible for squirting electrolytes on them to allow conduction. it looks like it s going to drip bits in between. but it s actually doing very precisely? it s more efficient and predictable and for sure doesn t make any mistakes. the final step is lamination to give the cells custom textures. and into the press it goes. and here s the finished product. giovanni, tell me about the prototypes you ve got here? what you see here is a fully self powered, sustainable powered headphone. it has a leather structure to it. and it will actually absorb any kind of light and convert that light into electric energy and charge the battery. if you go to the gym, whatever you do, they will always charge during the day. but the luxury of not needing
electricity but i guess its electricity that s being used anyway? we are recycling light. the extra efficiency means that the silver strips that usually run through solar panels are no longer needed, freeing up new design ideas. these cells have been shaped to fit a headphone band and this robot is responsible for squirting electrolytes on them to allow conduction. it looks like it s going to drip bits in between. but it s actually doing very precisely? it s more efficient and predictable and for sure doesn t make any mistakes. the final step is lamination to give the cells custom textures. and into the press it goes.
that the silver strips that usually run through solar panels are no longer needed, freeing up new design ideas. we can print this in the shape of. exactly. these cells have been shaped to fit a headphone band and this robot is responsible for squirting electrolytes on them to allow conduction. it looks like it s going to drip bits in between. but it s actually doing very precisely? it s more efficient and predictable and for sure doesn t make any mistakes. the final step is lamination to give the cells custom textures. and into the press it goes. and here s the finished product. a1 .3 millimetre thick solar cell. giovanni, tell me about the prototypes you ve got here?
ink onto solar panels and they don t even need the sun to charge. we have developed our own nano inks and in this machine we print that ink on the proprietary substrate. how is the end result and the usage of it different to other solar cells? it actually harvests all kinds of light. it s sort of like artificial photosynthesis so we work under any light conditions, led, normal light bulbs, even in the shade. any kind of light. you are sort of using electricity but i guess it s electricity that s being used anyway? we are recycling light. the extra efficiency means that the silver strips that usually run through solar panels are no longer needed, freeing up new design ideas. these cells have been shaped to fit a headphone band and this robot is responsible for squirting electrolytes on them to allow conduction. it looks like it s going to drip bits in between.