Kristoffer Almdal
Professor
Department of Chemistry
Kemi: Faculty, Fysisk Kemi_group: Kristoffer Almdal
Kemitorvet
Building 206 Room 042
2800 Kgs. Lyngby
Danmark
The basic competence in the group is the ability to identify and synthesize (polymer) molecules that can solve specific tasks. Block copolymers – linear and branched – have been and is the main focus mainly targeted studies of the fundamental principles governing self-organization. Linear and branched molecules including deuterium labelled for the study of flow in polymer melts and solution are targeted as well. These investigations require substantial analytical capabilities, which are also used in neighboring fields such as polymer degradation and biomaterials. The group seeks suitable tasks through cross-disciplinary collaborations. Self-organization has been perfected by nature to form the building blocks of living organisms. The present abilities of artificial self-organizing systems are bleak compared to nature and thus there is room for much development. Self-organization is based on a clever combination of incompatibility and connections. In other words, the systems have built in both driving forces to separate and structures to prevent separation. If these two tendencies - separation and connection - are balanced correctly, interesting structures ensue. By definition, self-organization is a cooperative process; many molecules must find their position in some structure without actively being placed in the position. Apparently the desired structures are most likely obtained when the driving force for the single molecule is not too strong. In an analogy with landscapes, it is easier to find your way to the lowest point in a soft rolling hill landscape than in a ragged mountain chain. You are less likely to get stuck in the wrong valley where steep sides could make it hard to get back out. In physical systems, it is the free energy landscape that governs the behavior. Soft contour free energy maps are generally found close to phase transitions and self-organized systems in nature are often close to phase transitions, that is, close to condition where the present equilibrium structure is no longer stable. A consequence of the need to balance the different driving force carefully is that one cannot expect to build a large variety of things with the same building blocks. The building block needs to be fine-tuned to the task at hand.