Summary
The invention of optical nanoscopy is about to revolutionize several disciplines and it was awarded with a Nobel Prize in Chemistry in 2014. It is widely believed that a majority of existing optical microscopes will be replaced by an optical nanoscope. Unfortunately, the potential of the such a revolution and its widespread adoption are severely obstructed due to limitations of present day nanoscopy solution, i.e. system complexity, high cost and low throughput. In my ERC project, I have developed compact photonic chip-based optical nanoscopy, that can increase the throughput of convention optical nanoscopy by a factor of 100 times. The sample is placed on top of a photonic chip, capable of both holding and illuminating the sample, enabling to acquire super-resolved images. Photonic-chips can be retrofitted to an existing standard optical microscope converting it to high-resolution nanoscope. By way of analogy, moving from current super-resolution microscopy to chip-based nanoscopy will be as transformational as the move from main-frame computers to mobile phones. This is indeed a disruptive technology enabling widespread penetration of affordable chip-based optical nanoscopes. In ChipNano, the overall aim here is to bring the technology closer to the market by making the invention more commercially viable by a) co-operating and possibly setting-up business contract with the industrial partners on chip-production b) obtaining user feedback from key opinion leaders in Europe; c) consolidating business case to attract long-term venture funding in close cooperation with a university spin-off.
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| Web resources: | https://cordis.europa.eu/project/id/957464 |
| Start date: | 01-08-2020 |
| End date: | 31-01-2022 |
| Total budget - Public funding: | - 150 000,00 Euro |
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Original description
The invention of optical nanoscopy is about to revolutionize several disciplines and it was awarded with a Nobel Prize in Chemistry in 2014. It is widely believed that a majority of existing optical microscopes will be replaced by an optical nanoscope. Unfortunately, the potential of the such a revolution and its widespread adoption are severely obstructed due to limitations of present day nanoscopy solution, i.e. system complexity, high cost and low throughput. In my ERC project, I have developed compact photonic chip-based optical nanoscopy, that can increase the throughput of convention optical nanoscopy by a factor of 100 times. The sample is placed on top of a photonic chip, capable of both holding and illuminating the sample, enabling to acquire super-resolved images. Photonic-chips can be retrofitted to an existing standard optical microscope converting it to high-resolution nanoscope. By way of analogy, moving from current super-resolution microscopy to chip-based nanoscopy will be as transformational as the move from main-frame computers to mobile phones. This is indeed a disruptive technology enabling widespread penetration of affordable chip-based optical nanoscopes. In ChipNano, the overall aim here is to bring the technology closer to the market by making the invention more commercially viable by a) co-operating and possibly setting-up business contract with the industrial partners on chip-production b) obtaining user feedback from key opinion leaders in Europe; c) consolidating business case to attract long-term venture funding in close cooperation with a university spin-off.Status
CLOSEDCall topic
ERC-2020-POCUpdate Date
27-04-2024
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