UPCOMING Projects 2021-2022



During the academic year of 21-22, we will work together with Alt.Pro on a case study directly provided by this industrial partner.

You will get the chance to work with alternative proteins, i.e. animal-free proteins that come in the form of plant-based foods, fermentation-derived nutrients and clean meat. You will be looking for ways to better control cell cultures by using sensors and smart technologies or optimizing the usage of the grow cultures with a more circulair mindset. The options are endless, the choice is yours!




How can we bring biology and technology together in a sustainable way? We designed a blueprint for an international student competion. Next year, you get to bring the event to life by creating a network, find the perfect location and plan the whole thing. Organization skills, networking, project planning,... these are skills that you will acquire and/or expand.

Projects 2019-2020


International student competitie

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Since September, we have been researching and brainstorming the idea of writing our own proposal for an international student competition. Now, the first draft of the proposal is nearly finished and we are almost ready to start spreading the word.  What will the competition be about? What will the participants need to deliver?  Who can participate?  Soon you'll get your answer to these questions when we introduce the competition officially, stay tuned!

Upgrading Filament Extrusion line

The development of the extrusion line to make 3D print filament out of recycled plastics started last year. This year we are solving the flaws that the machine had and further improving the prototype. For example; we are updating the communication between the different modules (heater,puller and winder) by using a central control interface.


Projects 2018-2019


Filament out of Cigarettes

Cigarette butts is one of the most found plastics in the seas and oceans and has become an enormous problem. We try to purify these filters biochemically and treat them with plasticizer to give these filters a second life in a 3D-printing application. 

Own Filament Extrusion line

To produce our own filament and reuse failed prints or other excess plastics we are developing our own filament extruder. This machine will produce a filament with the right diameter and coil the filament automatically on a spool.



To inspire the future generation of engineers and scientist we organise STEM-workshops concerning 3D-printing. By showing these children and their parents all the possibilities of 3D-printing we hope that this technique will become even more popular.

Projects 2017-2018

Sla printing

In order to optimize one of our client's materials for 3D printing applications, we developed our very own stereolithography (SLA) printer. This allows us to carry out the necessary experiments in order to modify the properties of the resin and thereby reach an optimal material that can be used for additive manufacturing.



By converting a fused deposition modelling (FDM) printer, we are able to print viscous materials via a piston based mechanism. Loading of a medium containing cells into the syringe, makes bioprinting of complex structures possible. In order to ensure optimal viability of these cells, a cooling system was developed which allows for the precise control of the ambient temperature. In order to obtain optimal print results, adaptations were made to the operating software as well. UV curing, sterilization and air filtration are a few examples of options that still have to be implemented.


Filament from waste

As most plastics are made out of petroleum, it comes as no surprise that they have a significant environmental impact. Because we at Innovived care about the environment, new ways are investigated to create filament in a more sustainable manner. To achieve this, we are currently using coffee grounds to develop a new type of filament which will be more biodegradable. In the future we hope to be working on other waste streams as well such as spent grains from beer production and cellulose fibres from vegetal origin. 

Hydrogel development

Hydrogels have already been widely used for several tissue engineering applications. They form the backbone of bioprinted structures while also providing binding sites for cells. Protection and attachment of the cells is important for various cellular processes. Currently, we are developing several different hydrogels in order to optimize the viability of the printed cells.