Description
The aims of this project are:•To develop a unique dual-functional superlens nano-imaging and nano-marking system that is not existing on the market. – we name it as ‘SuperNANO’ system. •To scale up superlens imaging/fabrication speed by about 5-8 times.
•To explore and promote commercial, social, and environmental impacts of the developed system against United Nations’ Sustainable Development Goals (SDGs) to build a strong impact case.
Funding awarded through the Bangor University Innovation and Impact Award (Research Wales Innovation Funding). Value = £45,928
| Period | 4 May 2022 → 30 Apr 2023 |
|---|---|
| Held at | HEFCW, United Kingdom |
| Degree of Recognition | National |
Related content
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Projects
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Research output
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SuperNANO: Enabling Nanoscale Laser Anti-Counterfeiting Marking and Precision Cutting with Super-Resolution Imaging
Research output: Contribution to journal › Article › peer-review