Our leading scientists
DSM's CTO and Corporate Science Fellows.
Macromolecular Sciences is about controlling the synthesis of macromolecular structures in order to influence polymer characteristics and behavior. The ultimate goal? To create materials that are better or more sustainable in terms of their performance or cost. Examples include our Anti-Reflective coatings developed using a template silication process that increases the efficiency of solar cells; as well as powder coatings suitable for heat-sensitive substrates like MDF, developed from a unique combination of polycondensation, network chemistry, and extrusion processing expertise.
Our specialized know-how on the chemistry of polymers that already exist includes network chemistry (cross-linking of polymers), polymer degradation and stability and interface chemistry - all of which are pivotal in ensuring that customers further down the value chain get the results they want from different polymer classes.
Also included within Macromolecular Sciences are:
Macromolecular Sciences focus on controlling polymer end groups, modality and intra-chain architecture in order to influence process behavior and performance in final applications. Since process parameters play a crucial role during the synthesis process, strong links with the Colloid & Interface, Process Technology and Materials Sciences are essential.
The synthesis process involved in Macromolecular Sciences can sometimes lead to major scientific breakthroughs. As well as anti-reflective coatings for solar, and powder coatings for heat-sensitive substrates like MDF, we also contribute to health and well-being with Macromolecular Sciences - for example the development of hydrophilic medical device coatings that benefit patients.
Our key RT&D centers in this field of expertise are located in Geleen, Waalwijk and Zwolle (the Netherlands), Elgin, IL, and Wilmington, MA (U.S.) and Shanghai (China).