Fluorinated hybrid films were fabricated from PMHS–xFMA and OVPOSS.
The hybrid films presented icephobic surfaces in submicron/nano-structure.
PMHS–17FMA could enhance hydrophobicity rather than icephobic properties.
Proper OVPOSS content (10–15 wt%) favored reducing the ice adhesion strength.
Rougher surface morphology (Rq > 90 nm) was benefit for repelling water droplets.