Homogeneous crystal nucleation in polymers: New insights from fast scanning calorimetry

Crystallization commonly starts from a (sub)nanoscale nucleus which eventually growth to a crystal. Classical nucleation theory (CNT) provides a qualitative description of these processes. Homogeneous nucleation, to become dominat over heterogeneous nucleation, requires deep undercooling of the polymer melt. At cooling rates of several thousand K/s such states can be reached and the kinetics of homogeneous nucleation becomes accessible. Fast scanning calorimetry (FSC), in combination with polarized optical (POM) and atomic force (AFM) microscopy, provides a tool to study homogeneous nucleation and even the thermodynamic stability of the formed nuclei as fuction of nucleation temperature and time.

- Zhuravlev, E., et al. (2011). "Kinetics of nucleation and crystallization in poly(epsilon caprolactone) (PCL)." Polymer 52(9): 1983-1997.
- Zhuravlev, E., et al. (2015). "Experimental test of Tammann’s nuclei development approach in crystallization of macromolecules." Crystal
Growth & Design 15(2): 786-798.
- Androsch, R., et al. (2018). "Relaxation and crystal nucleation in polymer glasses." European Polymer Journal 102: 195-208.