Multi-functional light-weight WALL panel based on ADAPTive Insulation and nanomaterials for energy efficient buildings

Finalised

Aerogel-based composite/hybrid nanomaterials for cost-effective building superinsulation systems

Finalised

Advanced material and nanotechnology cluster

Finalised

Cost-effective and sustainable bio- renewable indoor materials with high potential for customisation and creative design in energy efficient buildings

Finalised

High Performance, Economical and Sustainable Biocomposite Building Materials

Finalised

Cost-effective tools for better indoor environment in retrofitted energy- efficient buildings

Finalised

Damage Controlled Composite Materials

Ongoing

Development of ICFs based on novel low CO 2 binders for a new family of eco-innovative, durable and standardised energy efficient envelope components

Ongoing

Eco-innovative, safe and energy efficient wall panels and materials for a healthier indoor environment

Finalised

Enhanced Energy Efficiency and Comfort by Smart Light Transmittance Control

Finalised

Development of lightweight and highly insulating energy efficient components and associated enabling materials for cost-effective retrofitting and new construction of curtain wall facades

Ongoing

Energy efficient lightweight sustainable safe steel construction

Finalised

New Environmental friendly and Durable conCrete, integrating industrial by-products and hybrid systems, for civil, industrial and offshore applications

Ongoing

Energy efficient heat exchangers for HVAC applications

Finalised

Functional adaptive nano-materials and technologies for energy efficient buildings

Finalised

Highly efficient cladding eco-panels with improved nano-insulation properties

Ongoing

Healthier life with eco-innovative components for housing constructions

Finalised

High performance insulation based on nanostructure encapsulation of air

Finalised

Homes key insulating material

Finalised

Harvesting solar energy with multifunctional glass-polymer windows

Finalised

Innovative multi-functional vacuum-insulation-panels for use in the building sector

Ongoing

Development and demonstration of highly insulating, construction materials from bio-derived aggregates

Ongoing

Low embodied energy, advanced materials and insulating masonry components for energy efficient buildings

Finalised

Long Lasting Reinforced Concrete for Energy Infrastructure under Severe Operating Conditions

Ongoing

Large area fluidic windows

Finalised

Ultra-thin glass membranes for advanced, adjustable and affordable quadruple glazing windows for zero- energy buildings

Finalised

Multifunctional façades of reduced thickness for fast and cost-effective retrofitting

Finalised

Novel Nano-enabled Energy Efficient and Safe HVAC ducts and systems contributing to an healthier indoor environment

Finalised

Energy efficient air conditioning systems with temperature and humidity independent controls based on the combination of a liquid desiccants cycle with an adapted conventional air cooling system

Finalised

Nanocomposite for building constructions and civil infraestructures: European network pilot production line to promote industrial application cases

Finalised

Forest based composites for façades and interior partitions to improve indoor air quality in new builds and restoration

Finalised

Rethinking coastal defence and Green-Energy Service infrastructures through enHancEd-durAbiLIty high-performance fiber reinforced cement-based materials

Ongoing

Smart elements for sustainable building envelopes

Finalised

Development of an active film for smart windows with inkjet method. Application to a building component: autonomous smart device

Finalised

Sustainable, innovative and energy- efficient concrete, based on the integration of all-waste materials

Finalised

Highly Sustainable and Effective Production of Innovative Low Cost Vacuum Insulation Panels for Zero Carbon Building Construction

Finalised

Wall insulation novel nanomaterials efficient systems

Ongoing

Smart, lightweight, cost-effective and energy efficient windows based on novel material combinations

Finalised