Agri-Nano & Agrivoltaics (AGRINANO26) covers the following (but not limited) topics::

• Advanced PV Panel Technologies (OPVs, PPVs, Tandems, etc) for Agrivoltaics
  (Tailored OPV solutions for agriculture, Semi-transparent and lightweight modules for greenhouses and open-field cultivation, optical engineering for plant growth optimization, smart optical nanostructures for light management, Climate-resilient agrivoltaic installations)
  
  
• Flexible OLEDs & Lighting Solutions to enhance Crop yield in Agriculture
  (OLED lighting in enhancing crop quality and yield, Light spectrum tuning and integration with Agrivoltaic systems for plant-specific growth)
  
  
• Flexible Printed Sensors and Biosensors for Agriculture
  (Sensors for soil and plant monitoring, Biosensors for crop health and food quality assessment, real-time monitoring of nutrients, humidity, and stress indicators)
  
  
• Nano in Plants and Food Systems
  (Nanomaterials & sensing platforms for plant protection, safety and enhanced growth, Nanoparticles and Nanosystems, fertilizers and smart distribution systems)
  
  
• Agrivoltaics in Greenhouses and Controlled Cultivation
  (OPVs in greenhouses, Spectrum optimization, Controlled microclimate, Water efficiency, Energy-autonomous GHs)
  
  
• Agrivoltaics in Open-Field Cultivation: Adaptive Solar Installations for Triple Land Use
  (Adaptive panel configurations, Crop protection from extreme weather events, Dynamic shading and adaptive solar panel configurations, Renewable energy production)
  
  
• Hybrid Renewable Energy Systems in Agriculture
  (Integration of solar, wind, storage, and bioenergy in greenhouse and farm operations, Decentralized, off-grid, and microgrid solutions for energy autonomy)
  
  
• Energy Generation & Agricultural Productivity
  (Synergies between solar energy and crop performance, Dynamic energy sharing models between grid, farms, and local communities)
  
  
• Smart & Hydroponic Greenhouses for Controlled Environment Agriculture
  (Energy-autonomous Greenhouses, Smart Energy Systems for Controlled microclimate, Water efficiency and thermal management strategies, Hydroponic and vertical farming, Energy and crop monitoring, Energy and Crop monitoring and control in hydroponic Greenhouses)
  
  
• Water management & Smart Irrigation Systems for Resource Efficiency
  (Monitoring and optimization of water consumption, Integrated water management in Sustainable Agriculture)
  
  
• Artificial Intelligence and Smart Agrivoltaics Systems
  (AI-powered crop, energy, and environmental monitoring, Predictive analytics, IoT-based automation and real-time system control)
  
  
• Artificial Photosynthesis for Sustainable Plants and Crop Ecosystems
  (Photoelectrochemical systems, Organic and hybrid materials for solar fuel generation, Integration with agricultural ecosystems)
  
  
• Circular Economy & Sustainable Agriculture
  (Circular design of agrivoltaic technologies, recyclable OE materials and devices, Environmental impact and Life Cycle Assessment (LCA), Sustainable supply chains for agriculture systems)
  
  
• Economic Feasibility and Scalable Business Models
  (Techno-economic assessments, ROI, and lifecycle cost analysis, Business models for farmers, cooperatives, and energy developers)
  
  
• Policy Frameworks, Incentives, and Regulation
  (National and EU-level support schemes, CAP integration, Regulatory pathways, Policy benchmarking and international cooperation)