Either confocal microscopy (laser or spinning disk) or widefield time lapse microscopy with image deconvolution. We have six microscopes doing this constantly day in day out
I routinely image objects of 80nm using fluorescence widefield microscopy in live cellular imaging, often using multiple labels which aid in looking for the co-localisation of specific proteins. As long as the signal to noise ratio is low, which can be improved with confocal microscopy, however we are achieving this with of the shelf equipment daily. Image deconvolution of course helps.
blacklightpower have also about to release a perpetual motion device, a prototype will be produced imminently. Soon to be released into the market are perpetual yoyos!
Slashdot Mirror
Either confocal microscopy (laser or spinning disk) or widefield time lapse microscopy with image deconvolution. We have six microscopes doing this constantly day in day out
I routinely image objects of 80nm using fluorescence widefield microscopy in live cellular imaging, often using multiple labels which aid in looking for the co-localisation of specific proteins. As long as the signal to noise ratio is low, which can be improved with confocal microscopy, however we are achieving this with of the shelf equipment daily. Image deconvolution of course helps.
I for one welcome our nano-robitic mosquito overlords
blacklightpower have also about to release a perpetual motion device, a prototype will be produced imminently. Soon to be released into the market are perpetual yoyos!
"It's been a win-win model to have someone else provide added value to an open-source product," Brooks said.
*LOL* perhaps its a linux-linux model?