De 6 centrale temaer for Grand Solutions 

De spiller en central rolle i den grønne omstilling og i udviklingen af nye, bæredygtige produkter. Projekter under dette tema skal udvikle biologiske løsninger, der kan erstatte fossile ressourcer, skabe cirkulære systemer og styrke danske virksomheders konkurrenceevne.

Fokusområder:

• Biobaserede materialer
  Udvikling af nye materialer, der erstatter fossile råstoffer. Eksempler: bioplast lavet af restprodukter, fibre baseret på alger eller svampe, træbaserede alternativer til cement og stål.
• Fødevare- og ingrediensteknologi
  Bioteknologiske løsninger til bæredygtig fødevareproduktion. Eksempler: fermenteringsteknologier til plantebaserede fødevarer, nye proteinkilder som mikroalger eller insekter, bioteknologiske smags- og aromastoffer.
• Industrielle processer
  Anvendelse af bioteknologi i produktionen for at reducere ressourceforbrug. Eksempler: enzymer, der gør kemiske processer mere effektive, bioteknologiske processer til energiproduktion, bioraffinering af affald og sidestrømme.
• Biosolutions til miljø og klima
  Biologiske metoder til at løse miljø- og klimaproblemer. Eksempler: bakterier til at nedbryde plastik eller rense spildevand, biologiske alternativer til pesticider, mikroorganismer til CO₂-fangst.

Denmark holds a strong position in health and life science. Projects in this theme must transform research and knowledge into solutions that improve treatment, prevention, and welfare – while strengthening the competitiveness and export potential of Danish companies.

Focus areas:

• Medicines and treatments: New types of medicine and treatment methods.
  Examples: personalized medicine, biotech therapies, new vaccines.
• Digital health: Use of data, AI, and digital platforms to improve healthcare.
  Examples: apps for home treatment, AI diagnostics, digital monitoring tools.
• Welfare technology: Technologies supporting care, rehabilitation, and healthcare.
  Examples: robots for elderly care, rehabilitation sensors, digital training programs.
• Prevention and quality of life: Methods to reduce disease burden and promote health.
  Examples: digital tools for mental health, early detection apps, activity programmes.
• Data and responsibility: Ethical and responsible use of data in health projects.
  Examples: solutions ensuring transparency, patient data control, and new data security models.

Space Technology is a new theme and plays a central role in climate monitoring, communication, and security and strengthen Denmark’s contribution to space-based solutions that support the green transition, national security, and business development.

Focus areas:

• Satellite Data and Climate Monitoring: Development of solutions using satellite data to understand and manage climate change. Examples: satellite monitoring of sea ice and forest areas, measuring CO₂ emissions, early warning of natural disasters.
• Space-Based Communication: New systems to improve global communication and security.
  Examples: satellite internet, space-based emergency communication systems, defense and preparedness solutions.
• Space Technology and Green Transition: Technologies supporting energy and climate goals through space data and infrastructure. Examples: monitoring energy infrastructure, data for optimizing agriculture and transport, climate modeling.
• Security and National Resilience: Projects using space technology to protect critical systems and increase resilience. Examples: border surveillance, cyber threat detection using space data, analysis of military risks.

This theme will transform sectors as IT, security, health and energy, strengthen Denmark’s research and innovation capacity in quantum systems on both national and international levels. Projects may be early-stage and long-term but must show clear potential for future impact.

Focus areas:

• Quantum Computers and Algorithms: Development of hardware and software that utilize quantum mechanical principles. Examples: new quantum chips, algorithms for optimization or modeling, quantum-inspired solutions for complex calculations.
• Quantum Communication: Secure and efficient communication systems based on quantum technology. Examples: quantum encryption of data, new methods for secure internet infrastructure, experiments with quantum-based networks.
• Quantum Sensors and Measurement Technology: Sensors with extreme precision for use in research, health, or defense. Examples: quantum sensors for navigation without GPS, precise magnetic field measurements, medical imaging with quantum technology.
• Capacity Building and Basic Research: Projects that build the foundation for quantum technology in Denmark. Examples: research collaborations between universities, training of quantum specialists, development of quantum laboratories.

Projects under this theme must develop new solutions that reduce CO₂ emissions, promote the green transition and create growth. In 2025, this theme was slit into two sub-calls: 

Focus areas in Part A

• Energy production and efficiency: New technologies for production, storage, and smarter use. 
• Agriculture and food production: Sustainable farming, plant-based alternative and solutions to reduce climate impact.
• Transport: Green fuels, electrification, new mobility solutions, or logistics that reduce emissions.
• Environment and circular economy: Recycling, new materials, waste minimization, and resource efficiency.
• Nature and biodiversity: Protection and restoration of ecosystems, aquatic environments, and natural resources.
• Sustainable behaviour: Tools, technologies, and methods for greener choices.
• Societal consequences (cross-cutting): Analyses and projects that address the consequences of the green transition.

Part B: Energy Systems

• Projects focusing on research and innovation in future energy systems.
• Solutions that integrate production, distribution, and consumption in new ways.
• Projects supporting a flexible and robust energy system in line with electrification and renewable energy sources.

Advancing Denmark’s competitiveness and security relies on cutting-edge technologies that drive growth, enhance digitalization, and build a more resilient society.

Focus areas:

• Artificial Intelligence and Big Data: Solutions that use data for smarter decisions and new services.
  Examples: AI for production optimization, big data analysis in health or climate, fraud or cyberattack detection algorithms.
• Cyber and Information Security: Technologies that protect critical systems and data. Examples: security solutions for power grids and hospitals, robust communication encryption, AI-based threat detection.
• Robotics and Drone Technology: Advanced solutions for industry, transport, and surveillance.
  Examples: autonomous drones for infrastructure inspection, robots for precision agriculture, drones for rescue operations.
• Semiconductors and Microelectronics: Technologies that strengthen electronics and chip production. Examples: new microchip development, energy-efficient semiconductor components, specialized processor design.
• Materials Technology: New materials with improved properties and applications. Examples: superconducting materials, lighter and stronger metals, nanomaterials for medicine or electronics.
• Digital Inclusion and Citizen Engagement: Solutions that broaden participation in digital development. Examples: tools to improve accessibility of public digital services, apps for democratic participation, MedTech for vulnerable groups.