Summary
In many industrial fields, the purity of materials is a key feature and the identification of impurities is crucial. For instance, a quicker detection and allocation of dangerous germs and a closer monitoring of smallest traces of environmental pollutants like nano-plastics lead to a higher safety. Likewise, in the production process of high purity devices like ultraprecise lenses or semiconducting devices contaminations can lead to a change in functionality and understanding its origin is decisive. Our technology offers a new reliability to a powerful method – so-called surface-enhanced Raman spectroscopy or “SERS”. Moreover, with our so-called “SERS-plasters” we enable the application of SERS on solid state surfaces which was up to now not possible, thus opening completely new industrial markets. Our technology is based on ultra-precise nanostructures that enhance the signals of the substances in question up to a billionfold. Our nanostructures consist of a novel material, and are fabricated by a scalable nanostructuring method, that was invented by us and tailored specifically to the material. The combination allows reproducible nanostructures and enables a new reliability in ultrasensitive detection.
In the proposed project we will develop an extensive marketing strategy for our SERS-plasters and successfully bring our product to market. In addition, the coaching and mentoring program will sharpen the leadership skills of our CEO and female-founder, Dr. Henriette Maaß, and raise our awareness for gender inequalities in a deep-tech surrounding.
In the proposed project we will develop an extensive marketing strategy for our SERS-plasters and successfully bring our product to market. In addition, the coaching and mentoring program will sharpen the leadership skills of our CEO and female-founder, Dr. Henriette Maaß, and raise our awareness for gender inequalities in a deep-tech surrounding.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101071560 |
| Start date: | 01-07-2022 |
| End date: | 31-12-2022 |
| Total budget - Public funding: | - 75 000,00 Euro |
Cordis data
Original description
In many industrial fields, the purity of materials is a key feature and the identification of impurities is crucial. For instance, a quicker detection and allocation of dangerous germs and a closer monitoring of smallest traces of environmental pollutants like nano-plastics lead to a higher safety. Likewise, in the production process of high purity devices like ultraprecise lenses or semiconducting devices contaminations can lead to a change in functionality and understanding its origin is decisive. Our technology offers a new reliability to a powerful method – so-called surface-enhanced Raman spectroscopy or “SERS”. Moreover, with our so-called “SERS-plasters” we enable the application of SERS on solid state surfaces which was up to now not possible, thus opening completely new industrial markets. Our technology is based on ultra-precise nanostructures that enhance the signals of the substances in question up to a billionfold. Our nanostructures consist of a novel material, and are fabricated by a scalable nanostructuring method, that was invented by us and tailored specifically to the material. The combination allows reproducible nanostructures and enables a new reliability in ultrasensitive detection.In the proposed project we will develop an extensive marketing strategy for our SERS-plasters and successfully bring our product to market. In addition, the coaching and mentoring program will sharpen the leadership skills of our CEO and female-founder, Dr. Henriette Maaß, and raise our awareness for gender inequalities in a deep-tech surrounding.
Status
SIGNEDCall topic
HORIZON-EIE-2021-SCALEUP-01-03Update Date
09-02-2023
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