Every year, tons of meat products are thrown away since food safety concerns lead to a substantial waste of safe-to-eat food, causing a large waste of resources. Currently, the expiration date for meat/fish is determined by poorly performed subjective sensory. In this project, we found a high sensitive and selective method for detection of cadaverine (marker for meat freashness) by using a cadaverine-specific binder, and the method is applied into integrated sensors in close collaboration with AmiNIC ApS
AutomationsBoost (Væksthus Syddanmark og RoboCluster)
Project duration 03/2017 - 08/2019
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Baltic TRAM

Baltic TRAM aims to enhance innovation capacity and strengthen cooperation between analytical research institutes and companies, by providing industry with new ways of access to expertise, research facilities and open science and innovation concepts
Interreg Deutschland-Danmark
Projektperiode 03/2016 - 05/2019
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Celltom aims to improve cancer diagnostics by combining modern microscopy techniques across the Danish-German border and between universities and hospitals. Whereas the University of Lübeck provide advanced optical microscopy techniques for diagnosis, MCI will use the ORION He ion microscope with much better resolution to validate the optical techniques
Interreg Deutschland-Danmark
Projektperiode 04/2017 - 03/2019
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Nanoparticles make their way into a broad range of products and help to optimize everyday life, but the tiny particles can also end up taking their toll on our health. Within the project consortium CheckNano, supported by Interreg5a, we will test products for possible harmful particles and develop a rapid test for the identification of toxic nanoparticles for later application in industrial production processes.
Projektperiode 08/2018 - 07/2021
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Compliant PV

Mechanical and photochemical stabilization of flexible organic solar cells
Villum Fonden
Projektperiode 01/2017 - 12/2019
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Green PE

New materials for advanced power electronics. Boosting efficiency in conversion, transmission and consumption of green energy
Interreg Deutschland-Danmark
Projektperiode 03/2016 - 02/2019
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Plasmonic Gas Sensors

Development of novel high-resolution gas sensors using plasmonics technology
Danfoss Uddannelsesfond
Projektperiode 01/2017 - 12/2017


In this project, novel reactively sputtered metal oxide films will be developed and integrated as contact layers in organic, hybrid and silicon photovoltaics for the first time. By utilizing composition- and microstructure-tuned metal oxides, high work function layers that are robust to standard PV production and operation treatments will be developed, resulting in PV modules with so far unseen performance and stability. The project partners are besides SDU (lead): UC Berkeley, LBNL Berkeley, IMEC, Aarhus University and Sorbonne University of Paris. DFF FTP research project 2.
Projektperiode 10/2018 - 03/2022



An Innovation Project Center for Roll-to-Roll processed flexible devices
Interreg Deutschland-Danmark
Projektperiode 04/2016 - 09/2020
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Production of Next-Generation Energy Devices
Projektperiode 01/2014 - 10/2017
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Smart Surfaces for Sensors

Optimizing surfaces for functionalization, in order to develop high-resolution gas sensors
Danfoss Uddannelsesfond
Projektperiode 07/2017 - 06/2018



Stabilization of Organic Solar Cells by Ternary Blending Active Layers with Stabilizing Additives
The Danish Research Council for Technology and Production Sciences (DFFFTP)
Projektperiode 06/2015 - 06/2017
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High-efficiency solar cells by spectral transformation using nano-optical enhancement
Projektperiode 05/2015 - 04/2019
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Thin-film Hydrid Interfaces: a training initiative for the design of next-generation energy devices
Initial Training Network (ITN FP7)
Projektperiode 09/2013 - 10/2017
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Water quality sensing platforms for ecological management or urban rivers

Rivers which are crossing large urban areas are subject to human activities, and in order to preserve the environmental conditions, a constant monitoring of the river must be performed.  Current monitoring platforms are bulky and expensive, besides only collecting information about the physical-chemical properties of water. In this interdisciplinary project we will combine the knowledge of the consortium in order to develop a miniaturized sensing platform, which can collect a complete set of water properties (physical, chemical and biological) in real time
International Network Programme – Danish Agency for Science, Technology and Innovation
Projektperiode 01/2017 - 12/2017
Forskningsaktiviteter planlagt fra 2018