| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
RE-IMAGINE-CROPS – A real-time mobile multimodal positron emission tomography and multiphoton endoscopic technology for REalistic in-field quantitative IMAGING of CROPSRE-IMAGINE-CROPS aims to enhance sustainable agriculture by developing real-time, multimodal imaging technology to optimize nitrogen fertilizer use and reduce ecological impact. | EIC Pathfinder | € 2.999.500 | 2025 | Details |
Thermite reactions assisting satellite demiseThis project aims to advance thermite-for-demise (T4D) technology for satellite decommissioning by developing new materials and devices, validating their performance, and analyzing cost-effectiveness for industry adoption. | EIC Pathfinder | € 2.919.176 | 2025 | Details |
INFORMATION TRANSFER BETWEEN MEDICAL DOCTORS AND IMPLANTED MEDICAL DEVICES VIA ARTIFICIAL MOLECULAR COMMUNICATIONThe ERMES project aims to enable communication between medical doctors and active implanted medical devices using synthetic molecular communication for improved monitoring and control. | EIC Pathfinder | € 3.700.823 | 2025 | Details |
PELVIc Floor Evaluation live TRACKing – Real-time prediction of perineal traumaPELVITRACK aims to prevent pelvic floor disorders by developing a real-time monitoring solution for perineal tearing during vaginal deliveries through interdisciplinary research and innovative technologies. | EIC Pathfinder | € 3.209.102 | 2025 | Details |
High-throughput ultrasound-based volumetric 3D printing for tissue engineeringSONOCRAFT aims to revolutionize myocardial cell construct bioprinting by combining rapid volumetric printing with ultrasonic manipulation to create functional cardiac models for drug testing and disease research. | EIC Pathfinder | € 2.999.625 | 2025 | Details |
Bioinspired Singlet Fission Photon MultipliersBioSinFin aims to enhance silicon solar cells' efficiency by developing a bioinspired coating that addresses thermalization, potentially improving power conversion by 25% and supporting EU renewable energy goals. | EIC Pathfinder | € 2.997.801 | 2025 | Details |
Quantum technology with a spin-photon architecture for thousand-qubit chipsets at telecom wavelengthsQuSPARC aims to develop wafer-scale processes for thousands of high-quality qubit sites in silicon carbide, advancing scalable quantum information devices for million-qubit systems. | EIC Pathfinder | € 2.992.374 | 2025 | Details |
Specific Conjugation of Antibodies to Lipid Photo-peroxidised cancer tissues for their immunogenic ELiminationSCALPEL aims to revolutionize cancer treatment by using photodynamic therapy to destroy tumors while marking surviving cells for immune system targeting, potentially offering a curative photoimmunotherapy. | EIC Pathfinder | € 4.554.301 | 2025 | Details |
Entangled Flying Electron Quantum TechnologyELEQUANT aims to revolutionize quantum technology by developing high-fidelity flying charge qubits using electronic wavepackets in novel semiconductor materials for enhanced scalability and connectivity. | EIC Pathfinder | € 3.495.061 | 2025 | Details |
Instrument-free 3D molecular imaging with the VOLumetric UMI-Network EXplorerVOLUMINEX aims to revolutionize molecular imaging by providing an affordable 3D sequencing-based microscopy method for comprehensive spatial and transcriptomic data mapping. | EIC Pathfinder | € 2.999.999 | 2025 | Details |
NEW TECHNOLOGY FOR 1 MICRON RESOLUTION BIOMEDICAL IMAGINGThe 1MICRON project aims to revolutionize cancer detection by developing high-resolution, integrated x-ray sensors for immediate surgical feedback, potentially saving over 100,000 treatments annually in Europe. | EIC Pathfinder | € 2.999.999 | 2025 | Details |
Restoring movement lost to strokeThis project aims to develop a brain-spine interface to restore hand and arm movements in subcortical stroke survivors, potentially becoming the first effective treatment for their paralysis. | EIC Pathfinder | € 2.995.448 | 2025 | Details |
Bioinspired cellular actuatorsBiCeps aims to create robust, muscle-inspired actuators using multi-material additive manufacturing to revolutionize mechanical motion and replace traditional motors across various sectors. | EIC Pathfinder | € 2.894.306 | 2025 | Details |
SeLf-powered self-rEshaping Autarkic skin For wireless motes - LEAFThe project aims to develop a multifunctional, ultrathin foil that integrates 3D reshaping, energy harvesting, and storage to autonomously power silicon chips in various applications. | EIC Pathfinder | € 2.565.321 | 2025 | Details |
Quantum-Optic Silicon as a Commodity: Extending the Trust Continuum till the Edge of ICT NetworksQOSiLICIOUS aims to simplify quantum key distribution by integrating QRNG and QKD on silicon for cost-effective, compact solutions in secure communication across various markets. | EIC Pathfinder | € 3.481.857 | 2025 | Details |
ENABLING NEW QUANTUM FRONTIERS WITH SPIN ACOUSTICS IN SILICONThis project aims to develop a scalable silicon-based quantum information platform by enhancing qubit control, readout, and coupling mechanisms, fostering collaboration across Europe for advanced quantum computing. | EIC Pathfinder | € 3.235.322 | 2025 | Details |
INTELLIGENT ENCAPSULATION AND SCREENING PLATFORM FOR PRECISION DELIVERY OF PROBIOTICS TO IMPROVE GUT HEALTHiNSIGHT aims to develop precision probiotics through innovative microencapsulation for targeted delivery, enhancing gut health and addressing related diseases using advanced technology and personalized treatment. | EIC Pathfinder | € 3.194.343 | 2025 | Details |
Synthetic proteins for sustainable animal feedingSYNFEED aims to revolutionize animal feeding by developing sustainable, digestible proteins through precision nutrition and biosynthesis, reducing environmental impact and EU dependency on imports. | EIC Pathfinder | € 3.079.962 | 2025 | Details |
Hybrid endoscope for esophageal in vivo histology and histochemistryESOHISTO aims to revolutionize GI cancer diagnosis through innovative endoscopic technologies that enable real-time 3D imaging of diseased tissues, enhancing early detection and treatment. | EIC Pathfinder | € 3.046.127 | 2025 | Details |
Quantum Dot coupling engineering (and dynamic spin decoupling/deep nuclei cooling): 2-dimensional cluster state generation for quantum information processingQCEED aims to develop a scalable platform for generating large-scale 2D photonic cluster states using advanced quantum dot systems to enhance quantum information processing capabilities. | EIC Pathfinder | € 3.013.180 | 2025 | Details |
RE-IMAGINE-CROPS aims to enhance sustainable agriculture by developing real-time, multimodal imaging technology to optimize nitrogen fertilizer use and reduce ecological impact.
This project aims to advance thermite-for-demise (T4D) technology for satellite decommissioning by developing new materials and devices, validating their performance, and analyzing cost-effectiveness for industry adoption.
The ERMES project aims to enable communication between medical doctors and active implanted medical devices using synthetic molecular communication for improved monitoring and control.
PELVITRACK aims to prevent pelvic floor disorders by developing a real-time monitoring solution for perineal tearing during vaginal deliveries through interdisciplinary research and innovative technologies.
SONOCRAFT aims to revolutionize myocardial cell construct bioprinting by combining rapid volumetric printing with ultrasonic manipulation to create functional cardiac models for drug testing and disease research.
BioSinFin aims to enhance silicon solar cells' efficiency by developing a bioinspired coating that addresses thermalization, potentially improving power conversion by 25% and supporting EU renewable energy goals.
QuSPARC aims to develop wafer-scale processes for thousands of high-quality qubit sites in silicon carbide, advancing scalable quantum information devices for million-qubit systems.
SCALPEL aims to revolutionize cancer treatment by using photodynamic therapy to destroy tumors while marking surviving cells for immune system targeting, potentially offering a curative photoimmunotherapy.
ELEQUANT aims to revolutionize quantum technology by developing high-fidelity flying charge qubits using electronic wavepackets in novel semiconductor materials for enhanced scalability and connectivity.
VOLUMINEX aims to revolutionize molecular imaging by providing an affordable 3D sequencing-based microscopy method for comprehensive spatial and transcriptomic data mapping.
The 1MICRON project aims to revolutionize cancer detection by developing high-resolution, integrated x-ray sensors for immediate surgical feedback, potentially saving over 100,000 treatments annually in Europe.
This project aims to develop a brain-spine interface to restore hand and arm movements in subcortical stroke survivors, potentially becoming the first effective treatment for their paralysis.
BiCeps aims to create robust, muscle-inspired actuators using multi-material additive manufacturing to revolutionize mechanical motion and replace traditional motors across various sectors.
The project aims to develop a multifunctional, ultrathin foil that integrates 3D reshaping, energy harvesting, and storage to autonomously power silicon chips in various applications.
QOSiLICIOUS aims to simplify quantum key distribution by integrating QRNG and QKD on silicon for cost-effective, compact solutions in secure communication across various markets.
This project aims to develop a scalable silicon-based quantum information platform by enhancing qubit control, readout, and coupling mechanisms, fostering collaboration across Europe for advanced quantum computing.
iNSIGHT aims to develop precision probiotics through innovative microencapsulation for targeted delivery, enhancing gut health and addressing related diseases using advanced technology and personalized treatment.
SYNFEED aims to revolutionize animal feeding by developing sustainable, digestible proteins through precision nutrition and biosynthesis, reducing environmental impact and EU dependency on imports.
ESOHISTO aims to revolutionize GI cancer diagnosis through innovative endoscopic technologies that enable real-time 3D imaging of diseased tissues, enhancing early detection and treatment.
QCEED aims to develop a scalable platform for generating large-scale 2D photonic cluster states using advanced quantum dot systems to enhance quantum information processing capabilities.
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