01/02-2021 → 31/01-2024
Agnieszka Radziwon , Manuela Pintado , Stella Spanou , Rick van de Zedde , Cláudia Costa , Phine Katrine Kjær Wiborg , Gonçalo Amorim & Jeppe Dørup Olesen
The overall goal of DIP4Agri is to accelerate capacity building in entrepreneurship and innovation (E&I) of the HEIs involved in selected domains of deep tech that enable agri-food by-product valorisation. This Project will integrate knowledge in deep tech fields (biotechnology, clean technologies, photonics, artificial intelligence (AI), machine learning and robotics) and E&I capabilities to regenerate agri-food losses, converting the problem into a business opportunity.
DIP4Agri will create systematic transformation for effective and long-lasting change, leveraging on existing structures and procedures to achieve impactful improvements in the regional innovation ecosystems in Portugal, Denmark and the Netherlands. Thus, this Project will develop an education programme on deep tech with fully customised content to students and HEI staff, and create mentoring capacity for the development of solutions to respond to problem owners (involving industry, NGOs, municipalities, investors). The solutions will address challenges in agri-food losses, including feasibility demonstration for olive oil and melon production. This will contribute to the DIP4Agri Vision for 2030: to strengthen the E&I capacity of HEIs, and empower student entrepreneurs and non-academic staff to generate breakthroughs in deep tech that will benefit the regional socio-economic ecosystems and impact the broader European landscape.Beskrivelse
01/05-2023 → 31/12-2023
Allan Gross , Peter Enevoldsen , Anne Gammelgaard Ballantyne , Trine Bjørn Olsen & Maja Due Kadenic
Ethylene is an energy-rich chemical produced from fossil fuels in industry, with high commercial value and a strong presence in the global market. Targeting ethylene as the final product, the EU-funded SUN2CHEM project aims to develop solutions that will result in efficient solar-driven CO2 reduction. To do this, the project will develop all the components to be integrated into tandem photoelectrochemical cells and advanced photocatalytic reactors. It will also conduct environmental and social studies on the new technology in the context of a circular economy, its energy security impacts and the social acceptance of chemicals produced from sunlight conversion. The project will play a role in making us less dependent on fossil fuels and in reducing carbon emissions by CO2 conversion.Beskrivelse
01/10-2020 → 30/09-2023
Peter Lindgren , Bjørn Gitle , John Lindgren , Christian Koch , Helge Bjørneby , Gitte Kingo Andersen , Ambuj Kumar , Per Valter , Susanne Durst , Sadia Anwar , Rita Madsen , Thuvarakai Kandasamy , Sukanthan Sureshkumar , Markus Eisenhauer , Mirelle Togersen , Emma Ek , Martine Buser , Kristian Widén , Gunnar Andersson , Frode Ramstad Johansen , Antoine Manes , Magdalena Edvardsen , Anna-Lena Kjoniksen , Sudipa Sarker , Sanjeevikumar Padmanaban , Niklas Stoyan Hornbæk Knoth , Sofoklis Kyriazakos & Lala Purnima
Green Business Model Innovation for Start-Up's and SME in Denmark, Norway and SwedenBeskrivelse
01/03-2020 → 30/09-2022
Annette Skovsted Hansen , George Acheampong , Casper Andersen , Torben Andersen , Jonas Aryee & Martin Arvad Nicolaisen
16/01-2019 → 15/01-2022