Figure 4 FE-SEM micrographs for PTFE/PPS coatings via uniform cooling processes. FE-SEM micrographs with different magnifications of surface microstructures of PTFE/PPS superhydrophobic coating cured at 390°C for 1.5 h and then quenched in air-atmosphere cooling conditions Peptide 17 clinical trial (Q1 coating) (a ×2,000, b ×10,000, c ×30,000) and in -60°C low temperature uniform cooling medium (Q2 coating) (d ×2,000, e ×10,000, f ×30,000). The continuous zone of the coatings is marked with red circles while the discontinuous zone is marked with red ellipse. The insets show the
behavior of water droplets on their surfaces: (a) WCA = 158° and (d) WCA = 153°. Figure 5 FE-SEM micrographs for PTFE/PPS coatings via non-uniform cooling processes. FE-SEM micrographs with different
magnifications of surface microstructures of PTFE/PPS superhydrophobic coating cured at 390°C for 1.5 h and then quenched GSK126 concentration in the dry ice cooling medium (Q3 coating) (a ×2,000, b ×10,000, c ×30,000, d ×2,000, e ×10,000, f ×30,000, g ×10,000, h ×30,000).The continuous zone of the coatings is marked with red circles while the discontinuous zone is marked with red ellipse. The insets show the behavior of water droplets on Q3 coating surface: WCA = 154°. As the nano-scale pores between dense nano-papules and nano-spheres stacked on the micro-scale papillae of Q1, Q2 and Q3 coating were much smaller than the pores between orderly thin and long nano-fibers on P2 coating, leading to reduction of the amount of air captured by the pores; thus, the contact area between the water droplet and the coating surfaces increased [29, 30], and as a result, the WCA of Q1, Q2, and Q3 coating was smaller than P2 coating by more than 10°. In addition, the adhesion of water droplets on Q1, Q2, and
Q3 coating was greater than that of P2 coating, due to poor directional consistency of nano-papules on Q1, Q2, and Q3 coating. Thus, the contact angle hysteresis of water droplets increased [29], and water droplets can be placed upside down on Q1, Q2, and Q3 coating. In conclusion, polymer surfaces with nano-fiber MNBS texture generated by external macroscopic force interference possessed superior non-wettability and superhydrophobicity C-X-C chemokine receptor type 7 (CXCR-7) compared with polymer surfaces with ‘nano-papules MNBS texture’ obtained by internal microscopic force interference. Mechanism for controllable polymer nano-spheres/papules, nano-wires/fibers fabricated by disturbing crystallization process under different cooling conditions are shown in Figure 6, and the surface composition of Q1, Q2, and Q3 coating can be seen in Additional file 1: Figure S1. When the Q1 coating was quenched in the air, the PTFE aggregates (macromolecular chains) were instantly surrounded by the air molecules at 20°C (Table 1 and Figure 4).