We report an electrospun & thermally stable micro-fibers of poly(1,6-heptadiyne) (PHD), modified with ABS. Developed micro-fibers demonstrated hydrophobicity (WCA~145^o ± 2^o), and exhibited hierarchical surface morphology (confirmed by FESEM analysis). Simulation study showed Chi parameter i.e. χ_c = 7.88, & free energy of mixing i.e. 4.67 kcal/mol, thereby demonstrating its feasibility for electrospinning. PHD/ABS microfibers demonstrated low ice-adhesion ability, where, it effectively removed frozen water droplets in 8 s from hydrophobic surface, under an air-stream rate of 78 kPa/s. High thermal stability (200 °C), hydrophobicity and low ice-adhesion ability, demonstrate that PHD/ABS microfibers can be effectively used for multifunctional engineering/industrial applications.

Fabrication of poly (1,6-heptadiyne)/ABS microfibers via electrospinning.

我们报告了用ABS改性的聚（1,6-庚二炔）（PHD）的电纺和热稳定微纤维。发达的微纤维表现出疏水性（WCA〜145 ^o  ±2 ^o），并表现出分层的表面形态（通过FESEM分析证实）。模拟研究表明驰参数即χ _Ç ＝ 7.88，混合自由能为4.67kcal / mol，从而证明了其静电纺丝的可行性。PHD / ABS超细纤维显示出低的冰粘附能力，在78 kPa / s的气流速率下，PHD / ABS超细纤维可在8 s内有效地从疏水表面去除冷冻的水滴。高热稳定性（200°C），疏水性和低冰粘附能力证明PHD / ABS超细纤维可有效地用于多功能工程/工业应用。

通过静电纺丝制造聚（1,6-庚二炔）/ ABS超细纤维。