Investeringsoversigt

8477 Investeringer

Titel Sortér faldende	Periode	Program
Friskt brød på 12 minutter	2019 - 2020
Friskt brød på 12 minutter Periode 2019 - 2020 Region Program Fagområde Bioressourcer, Fødevarer og Livsstil Investering Percentage 100 Fondens investering 150.000 Samlet budget 150.000 Projektdeltagere Brogaards Bageri ApS Projektleder Aktiv Læs mere om projektet
FRO-AI - An innovative tool for CO2 emissions reduction in logistics	2022 - 2022	Innobooster
FRO-AI - An innovative tool for CO2 emissions reduction in logistics Periode 2022 - 2022 Region Region Syddanmark Program Innobooster Fagområde Ikke defineret Investering Percentage 35 Fondens investering 765.188 Samlet budget 2,2 mio. Projektdeltagere SentiSpec ApS Projektleder SentiSpec ApS Læs mere om projektet
From CO2 emissions to algae-based sustainable oil & biomass	2022 - 2023	Innobooster
From CO2 emissions to algae-based sustainable oil & biomass Periode 2022 - 2023 Region Program Innobooster Fagområde Ikke defineret Investering Percentage 31 Fondens investering 1,2 mio. Samlet budget 3,8 mio. Projektdeltagere Algiecel ApS Projektleder Læs mere om projektet
From days to hours: a real-time metagenomic approach to bloodstream infection diagnostics	2024 - 2025	Innoexplorer
From days to hours: a real-time metagenomic approach to bloodstream infection diagnostics Periode 2024 - 2025 Region Program Innoexplorer Fagområde Ikke defineret Investering Percentage 100 Fondens investering 1,5 mio. Samlet budget 1,5 mio. Projektdeltagere Aalborg Universitet, FRB7H Projektleder Læs mere om projektet
From Opaque ‘Black Box’ to Strategic Civic Asset – Leveraging environmental, spatial, and economic synergies in edge DC projects to support sustainable urban development	2026 - 2029	Erhvervsforsker
From Opaque ‘Black Box’ to Strategic Civic Asset – Leveraging environmental, spatial, and economic synergies in edge DC projects to support sustainable urban development Periode 2026 - 2029 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 61.55 Fondens investering 1,2 mio. Samlet budget 1,9 mio. Denne erhvervs-ph.d. undersøger, hvordan urbane edge-datacentre kan udvikles fra uigennemsigtige ’sorte bokse’ til bygninger, der skaber værdi for byens kontekst (funktionelt, klimamæssigt og socialt). Gennem interviews, GIS-kortlægning og cost-benefit-analyse kvantificeres miljømæssige, rumlige og økonomiske synergier som grundlag for en bæredygtig byintegration. Projektdeltagere HENNING LARSEN ARCHITECTS A/S, Technical University of Munich (TUM) Projektleder Technical University of Munich (TUM) Læs mere om projektet
From Operational Excellence to Commercial Excellence	2017 - 2019	Innobooster
From Operational Excellence to Commercial Excellence Periode 2017 - 2019 Region Region Hovedstaden Program Innobooster Fagområde Ikke defineret Investering Percentage 33 Fondens investering 478.170 Samlet budget 1,4 mio. Projektdeltagere Innovisor Consulting ApS Projektleder Innovisor Consulting ApS Læs mere om projektet
From policy to practice: Towards circular waste and resource management on construction sites	2026 - 2028	Erhvervsforsker
From policy to practice: Towards circular waste and resource management on construction sites Periode 2026 - 2028 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 60.29 Fondens investering 1,2 mio. Samlet budget 2,1 mio. Bæredygtig affaldshåndtering er afgørende for byggeriets klimaforpligtelser, men udfordrer imidlertid de eksisterende organisatoriske praksisser og kræver en ny forståelse af, hvordan balancen mellem bæredygtighed og forretningsmæssig indtjening kan håndteres. Projektet undersøger, hvordan en entreprenør kan: 1) udøve indflydelse på sine institutionelle omgivelser, 2) omstille intraorganisatoriske rutiner 3) fremme bæredygtige affaldspraksisser på byggepladser. Projektdeltagere ENEMÆRKE OG PETERSEN A/S, University of Southern Denmark Projektleder University of Southern Denmark Læs mere om projektet
From printed sensors to contamination monitoring - game-changing improvement to production processes	2020 - 2021	Innobooster
From printed sensors to contamination monitoring - game-changing improvement to production processes Periode 2020 - 2021 Region Region Sjælland Program Innobooster Fagområde Ikke defineret Investering Percentage 31.97 Fondens investering 452.348 Samlet budget 1,4 mio. Projektdeltagere IPM - Intelligent Pollutant Monitoring Projektleder IPM-INTELLIGENT POLLUTANT MONITORING ApS Læs mere om projektet
From prototype to production	2017 - 2017	Innobooster
From prototype to production Periode 2017 - 2017 Region Region Hovedstaden Program Innobooster Fagområde Ikke defineret Investering Percentage 30.69 Fondens investering 174.961 Samlet budget 570.000 Projektdeltagere CINC Devices ApS Projektleder PlatoScience ApS Læs mere om projektet
From Skin To Wire	2018 - 2021	Erhvervsforsker
From Skin To Wire Periode 2018 - 2021 Region Region Hovedstaden Program Erhvervsforsker Fagområde Biotek, Medico og Sundhed Investering Percentage 40.78 Fondens investering 1,3 mio. Samlet budget 3,3 mio. Projektdeltagere Danmarks Tekniske Universitet, AH METAL SOLUTIONS A/S Projektleder AH METAL SOLUTIONS A/S Læs mere om projektet
From skin to wire	2017 - 2017	Innobooster
From skin to wire Periode 2017 - 2017 Region Region Hovedstaden Program Innobooster Fagområde Ikke defineret Investering Percentage 33 Fondens investering 478.407 Samlet budget 1,4 mio. Projektdeltagere AH Metal Solutions A/S Projektleder AH METAL SOLUTIONS A/S Læs mere om projektet
From wastewater to green liquid fuels	2019 - 2020	Innoexplorer
From wastewater to green liquid fuels Periode 2019 - 2020 Region Region Midtjylland Program Innoexplorer Fagområde Energi, Klima og Miljø Investering Percentage 100 Fondens investering 812.527 Samlet budget 812.527 Projektdeltagere Aarhus Universitet Projektleder Aarhus Universitet Læs mere om projektet
From wind climate to wind turbine loads - Efficient and accurate decision support and risk analysis	2016 - 2019	Erhvervsforsker
From wind climate to wind turbine loads - Efficient and accurate decision support and risk analysis Periode 2016 - 2019 Region Region Nordjylland Program Erhvervsforsker Fagområde Energi, Klima og Miljø Investering Percentage 38.49 Fondens investering 1,1 mio. Samlet budget 2,8 mio. Projektdeltagere Aalborg University, EMD International A/S Projektleder EMD International A/S Læs mere om projektet
Frontliners AI - udvikling af algoritme og AI til performancetræning	2020 - 2021	Innobooster
Frontliners AI - udvikling af algoritme og AI til performancetræning Periode 2020 - 2021 Region Region Hovedstaden Program Innobooster Fagområde Ikke defineret Investering Percentage 33 Fondens investering 472.725 Samlet budget 1,4 mio. Projektdeltagere Frontliners ApS Projektleder Frontliners ApS Læs mere om projektet
FTQP Fault-Tolerant Architectures for Quantum Computing with Photon Emitters	2024 - 2029	Grand Solutions
FTQP Fault-Tolerant Architectures for Quantum Computing with Photon Emitters Periode 2024 - 2029 Region Program Grand Solutions Fagområde Ikke defineret Investering Percentage 85.49 Fondens investering 17,1 mio. Samlet budget 20,0 mio. In recent years, a fundamentally different form of information processing has emerged that exploits quantum mechanics. Once realized, quantum computers can efficiently solve classes of problems that would take the lifetime of the universe to solve on conventional supercomputers. Developing quantum hardware with sufficiently low noise, and quantum computing architectures tailored to use it, remain central challenges that currently prevent reaching quantum computers at scale, as required for known useful applications. Photonic quantum computing has a comparative advantage over other approaches because it can scale up to large-scale quantum computing by leveraging pre-existing (classical) semi-conductor photonics technology. The main challenge is to realize core building blocks of sufficiently high quality and to devise resource-efficient quantum architectures. Over the past decades, Danish researchers have developed unique photonic quantum hardware based on deterministic photon-emitter interfaces. In FTQP, we will advance these foundational hardware building blocks and propose fault-tolerant quantum computing architectures tailored to them. The co-design of quantum hardware and computing architecture is considered a highly fruitful approach in order to achieve real progress. The proposed project constitutes a new and highly promising approach to scalable quantum computing that fully exploits a true strong-hold position of Danish researchers. Projektdeltagere University of Copenhagen, University of Copenhagen, Sparrow Quantum Aps Projektleder Læs mere om projektet