Here you can find MADRAS related projects:
LINKED PROJECTS
Hi-Accµracy aims to deliver the next generation of large area, flexible OLAE structures such as organic Thin Film Transistors (OTFTs) and Electroluminescent Quantum Dot Light Emitting Diode (EL-QD-LED) displays, to µm-scale feature size printable onto flexible substrates. This is aimed at the large and exciting printed, flexible and organic electronics market.
SmartEEs2 is a European project funded by the European Union´s Horizon 2020 Research and Innovation programme the aim of which is to help the European Industry reinforce its competitive advantage by providing acceleration support to Innovative Companies for integration of Flexible and Wearable Electronics Technologies.
The 5E project underpins digitisation and support specifically the European electronics industry in seizing opportunities by federating – not merging – the 3 European electronics ecosystems, i.e. Nanoelectronics, Electronic Smart Systems, and Flexible, Organic & Printed Electronics.
The SUPERIOT project develops IoT technology that is truly sustainable. The SUPERIOT concept is based on the use of radio and light to provide wireless connectivity, IoT node energy as well as positioning. This results in a system that is highly flexible and adaptable. The IoT nodes will be implemented maximising the use of printed electronics technology.
The FlexFunction2Sustain project supports the plastics and paper processing industry in overcoming environmental challenges while entering the digital age. The project provides a wide access to innovative solutions through an Open Innovation Test Bed for nano-functionalised plastic and paper surfaces and membranes, supporting innovative SMEs and industries by drastically reducing the time-to-market for novel concepts, ideas and products.
The HyPELignum project seeks to demonstrate, via a holistic approach, that the combination of additive manufacturing, wood-based materials, abundant transition metals and advance sustainability assessment, can lead to the conceptualization and manufacturing of net-zero carbon electronics.
The STRENTEX project is funded by the European Commission within the Horizon 2020 research and innovation programme and set in the framework of the ERA Chairs action, with the main idea to create a Center of gravity, in Novi Sad, Serbia, for cutting-edge research in the field of Stretchable and Textile electronics, for the benefit of our society.
The DiaDEM project is developing a platform for organic electronics providing a one-stop-shop solution from digital discovery to experimental verification by linking the virtual screening of small molecule candidates with the chemical supply chain. Much like novel lead compounds are explored in the drug discovery industry, the field of organic semiconductors needs to extend the palette of suitable structures for light emitting diodes, photovoltaics, transistors, sensors, etc.
The SINTEC project will provide soft, sticky, and stretchable sensor patches that can be used multiple times and at longer periods. The aim of SINTEC is to advance a rigid-stretch PCB technology with stretchable substrate and liquid alloy, and to demonstrate its usability in complex applications, involving wearable sensing, embedded processing, and Fat-IBC.
REFORM is a female-led project aiming to develop printed green electronics that will accelerate and guide the creation of a new European functional electronics supply chain. The project will employ eco-design principles to produce green printable electronics that meet the demands of multiple industries and sectors so that e-waste ceases to be a problem in the future.