Nutz Fabian A, Retsch Markus
University of Bayreuth, Physical Chemistry - Polymer Systems, Universitaetsstr. 30, 95447 Bayreuth, Germany.
Phys Chem Chem Phys. 2017 Jun 21;19(24):16124-16130. doi: 10.1039/c7cp01994g.
We introduce the in situ characterization of the dry sintering process of face-centred cubic colloidal crystals by two complementary techniques: thermal transport and photonic stopband characterization. Therefore, we employed time-dependent, isothermal laser flash analysis and specular reflectivity experiments close to the glass transition temperature of the colloidal crystal. Both methods yield distinctly different time constants of the film formation process. This discrepancy can be attributed to a volume- (photonic stopband) and interface-driven (thermal transport) sensitivity of the respective characterization method. Nevertheless, both methods yield comparable apparent activation energies. Finally, we extended the sintering process characterization to further polymer compositions, with vastly different glass transition temperatures. We could show that the film formation rate is governed by the viscoelastic properties of the polymers at the respective annealing temperature.
热传输和光子带隙表征。因此,我们在接近胶体晶体玻璃化转变温度的条件下,采用了随时间变化的等温激光闪光分析和镜面反射率实验。这两种方法都得出了明显不同的成膜过程时间常数。这种差异可归因于各自表征方法对体积(光子带隙)和界面驱动(热传输)的敏感性。然而,两种方法得出的表观活化能相当。最后,我们将烧结过程表征扩展到具有截然不同玻璃化转变温度的其他聚合物组合物。我们可以表明,成膜速率受各退火温度下聚合物粘弹性特性的支配。