3.3. Thermodynamic analysis of SANF

3.3. Thermodynamic analysis of SANFs

We used differential scanning calorimetry (DSC) to measure the thermal properties of SANF scaffolds. The crystallization (Fig. 3B) and melting thermograms (Fig. 3C) of PCL SANFs as elucidated via DSC, were identical to PCL-chips indicating no retardation in crystallinity due to the RJS process, in spite of rapid solvent evaporation and elongational stresses [17]. In addition, there was no significant change in the melting temperature (Fig. 3B, Tm, Table 1) of hybrid SANFs as compared to PCL samples. We measured a decrease in enthalpy of fusion (Fig. 3C, ΔHm, Table 1) in the hybrid SANFs indicating less mobility of the PCL polymer chains in the presence of the protein component. Higher crystallization temperature of PCL SANFs as compared to PCL-chips (Fig. 3C, Tc, Table 1) suggests a faster crystallization rate. It is likely that the higher crystallization temperatures of the SANF scaffolds are due to polymer chain alignment induced by the high centrifugal forces of the RJS process.