Final Activity Report Summary - EnzyMat (Enzymatic Approach to Chiral Multifunctional Materials for Advanced Applications)
The general aim of this work was to use enzymes to make and modify polymers. More specifically, it was to exploit the high selectivity that enzymes could possess to create polymers with unique properties that could not be easily made using conventional methods.
During the course of this research we exploited one of the most powerful and useful characteristics of enzymes, their chiral selectivity. We used this to create materials which produced a response to the presence of a specific enzyme, i.e. to produce enzyme responsive materials. The magnitude of this response was pre-programmed into the material by tailoring its chiral makeup. This programming was similar to the binary code that is ubiquitous in information technology. The material then responded to the presence of a specific enzyme, and chemical, by changing its physical properties, in this case the temperature at which the material softened upon heating.
In addition to this, many other uses of enzymes in the field of material science were demonstrated, both internally within the DSM institute and by establishing strong collaborations with other research institutes throughout the world. The results of this work were publicised throughout the community by means of publications in renowned journals and various presentations at international conferences, greatly expanding on the current knowledge on the use of enzymes within the field of material science.