MATMED will run a web-based open innovation and learning platform between regions to connect SMEs with researchers, specialised private investors and each other beyond their own regional networks.
In this project, we will generate transgenic Stevia plants carrying a CRISPR/Cas9 construct to edit an endogenous gene, to assess the feasibility and evaluate the efficiency of genome editing in this commercially relevant crop.
Learning from nature to synthesize peptides and proteins
In this project, we propose an alternative peptide and protein synthesis strategy, inspired by nature, which develops the field in a more sustainable way.
If we wish to address the world’s increasing demand for food, feed and biomass while respecting the environment and coping with ever changing climate conditions, we need a leap forward in the technology for crop improvement, and CRISPR/Cas9 offers an unprecedented opportunity to enable this.
LIBERATE aims to realize the first pilot scale plant for the so-called 'lignin-first' approach, a novel route produce not only cellulose, but also an aromatic oil directly from woody biomass.
The objective of the project is to evaluate the compatibility and added value of this biobased thermoplastic material for use as a performance additive in various commercial polymers, including polyesters, polyolefins and polyamides.
The project aims to provide eco-friendly solutions to achieve tensile strength and tensile modulus greater than 1GPa and 50GPa, respectively in processed products such as fibers or in engineering plastics applications.
The main goal of the “Grasage” project is to develop a model describing the orientation and structural interaction of graphene within the polymer matrix during a fibre melt-spinning process and able to predict the electrical , thermal and mechanical properties of the nanocomposites.
The objective of the Beauti-Fully Biobased Fibres project is to develop sustainable, renewable colourants with improved light fastness and colour intensity for colouration of (biobased) man-made textile fibres.
By joining forces, Sappi and Maastricht University are developing a new and environmentally friendly production technology for plastics with new properties.
The goal of this project is to engineer functional cardiovascular tissues that have the ability to provide long-term functionality when introduced into the body.
Plastic Diamond project aims to transfer the synthesis of a weekly-entangled (disentangled) Ultra-High Molecular Weight Polyethylene (UHMWPE) to industrial level and expand its applications.
Enzymatic conversion of Chitin into high value compounds
Chitosan has a number of commercial and biomedical uses: It has proven antibacterial, antifungal and antiallergenic properties and is therefore of interest for the agricultural- and pharmaceutical industry.
The goal of the “Horizontal” project is to map and evaluate different suggested solutions in order to understand which products and processes have a higher potential for creating economic value and are therefore suitable for scale up and piloting.
Develop renewable adhesives and thermosets with controlled mechanical properties for the development of lightweight, high impact composites that will result in a reduction of its carbon footprint.
The project team investigates the possibilities to make known building blocks for materials such as polyamides, which are used in a number of applications from car parts to nylon stockings.
Novel wound dressing derived from stinging nettles
The Chinese Scholarship Council have granted a scholarship to a PhD-student to come to Maastricht University for developing a novel wound dressing that is completely derived from the stinging nettle Urtica dioica.
In this project, the researchers from UM and SABIC will produce polymer membranes, that can be applied in, for example, water purification. To do this they will need to develop new block and graft copolymers that arrange themselves on a nanoscale.
Novel aromatic monomers from biomass preferably provide added functionality as compared to fossil-based monomers to be considered a viable alternative.
Expertise network for the sustainability assessment of biobased materials
This project is a stepping stone towards the development of an international collaboration focusing on the quantification and interpretation of the sustainability impact of biobased materials and processes in the Euregio.
Alternative biobased precursors for a sustainable and affordable production of carbon fibres
The starting grant “Alternative biobased precursors for a sustainable and affordable production of carbon fibres” aims at developing more sustainable carbon fibres.
This project aims to contribute to a more sustainable world. On the one hand, we will develop polymers that have the same properties as the widespread water-soluble polymer polyacrylic acid, but have the great advantage that they are both bio-based and biodegradable, characteristics that polyacrylic acid does not yet meet.