Summary
"Our product, MicNo®, is a patented Zinc Oxide UV filter for use in cosmetic formulations. MicNo® are designed platelet-shaped micron particles composed of nano primary particles - developed to exploit benefits of the nano-size particles while removing adverse effects of them.
The aim of this project is to mature, in-vivo test and commercialise MicNo® onto the global markets. We had been awarded Phase I funding and we have conducted a Feasibility Study (GAN #741192) that verified the market potential. Our product is at TRL 7 and this project will enable us to bring our solution to TRL9 ready for commercialisation on the global cosmetics market valued at $454 billion with CAGR of 6%.
MicNo® has gone through in-vitro testing, toxicity tests as well as efficacy tests – they all showed superior broad-spectrum protection with up to 60% improvement vs. main competitors, improved transparency at application by 15-20%, mitigation of safety and health concerns related to nano zinc particles. As well as high area coverage/unit mass – a 40% reduction in raw materials usage for same UV protection.
Europe is the global flagship producer of cosmetics with a market valued at €77 billion and exports exceeding €33 billion. Thousands of companies are involved in manufacturing of cosmetics in Europe – utilising our UV filter in cosmetic formulations improves cosmetic and health benefits vs. current ZnO ingredients. We offer a solution for safer sun care products without endocrine-disrupting chemical UV filters and with lower production costs. Considering 150-200 million bottles of sunscreen are sold annually in EU this would translate to savings of €75 to €100 million/year. Moreover, we believe that our unique technology will encourage large sways of population to utilise more sun care products.
By completing this project we expect to generate accumulated turnover of €62 million and profit of €41 million over 5-years post-project completion and to create 70 new jobs.
"
The aim of this project is to mature, in-vivo test and commercialise MicNo® onto the global markets. We had been awarded Phase I funding and we have conducted a Feasibility Study (GAN #741192) that verified the market potential. Our product is at TRL 7 and this project will enable us to bring our solution to TRL9 ready for commercialisation on the global cosmetics market valued at $454 billion with CAGR of 6%.
MicNo® has gone through in-vitro testing, toxicity tests as well as efficacy tests – they all showed superior broad-spectrum protection with up to 60% improvement vs. main competitors, improved transparency at application by 15-20%, mitigation of safety and health concerns related to nano zinc particles. As well as high area coverage/unit mass – a 40% reduction in raw materials usage for same UV protection.
Europe is the global flagship producer of cosmetics with a market valued at €77 billion and exports exceeding €33 billion. Thousands of companies are involved in manufacturing of cosmetics in Europe – utilising our UV filter in cosmetic formulations improves cosmetic and health benefits vs. current ZnO ingredients. We offer a solution for safer sun care products without endocrine-disrupting chemical UV filters and with lower production costs. Considering 150-200 million bottles of sunscreen are sold annually in EU this would translate to savings of €75 to €100 million/year. Moreover, we believe that our unique technology will encourage large sways of population to utilise more sun care products.
By completing this project we expect to generate accumulated turnover of €62 million and profit of €41 million over 5-years post-project completion and to create 70 new jobs.
"
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/806108 |
| Start date: | 01-03-2018 |
| End date: | 31-10-2019 |
| Total budget - Public funding: | 777 500,00 Euro - 544 250,00 Euro |
Cordis data
Original description
"Our product, MicNo®, is a patented Zinc Oxide UV filter for use in cosmetic formulations. MicNo® are designed platelet-shaped micron particles composed of nano primary particles - developed to exploit benefits of the nano-size particles while removing adverse effects of them.The aim of this project is to mature, in-vivo test and commercialise MicNo® onto the global markets. We had been awarded Phase I funding and we have conducted a Feasibility Study (GAN #741192) that verified the market potential. Our product is at TRL 7 and this project will enable us to bring our solution to TRL9 ready for commercialisation on the global cosmetics market valued at $454 billion with CAGR of 6%.
MicNo® has gone through in-vitro testing, toxicity tests as well as efficacy tests – they all showed superior broad-spectrum protection with up to 60% improvement vs. main competitors, improved transparency at application by 15-20%, mitigation of safety and health concerns related to nano zinc particles. As well as high area coverage/unit mass – a 40% reduction in raw materials usage for same UV protection.
Europe is the global flagship producer of cosmetics with a market valued at €77 billion and exports exceeding €33 billion. Thousands of companies are involved in manufacturing of cosmetics in Europe – utilising our UV filter in cosmetic formulations improves cosmetic and health benefits vs. current ZnO ingredients. We offer a solution for safer sun care products without endocrine-disrupting chemical UV filters and with lower production costs. Considering 150-200 million bottles of sunscreen are sold annually in EU this would translate to savings of €75 to €100 million/year. Moreover, we believe that our unique technology will encourage large sways of population to utilise more sun care products.
By completing this project we expect to generate accumulated turnover of €62 million and profit of €41 million over 5-years post-project completion and to create 70 new jobs.
"
Status
CLOSEDCall topic
SMEInst-02-2016-2017Update Date
27-10-2022
Geographical location(s)
Structured mapping
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H2020-EU.2.1.2. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Nanotechnologies
H2020-EU.2.1.3. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
