Developing a photothermal anti/deicing fluor‐free composite coating with high wear resistance and liquid impalement resistance based on a new biobased benzoxazine resin and polydopamine‐coated aluminum nitride

Abstract: Developing photothermal anti/deicing fluor‐free composite coatings with high wear resistance and liquid puncture resistance is an interesting challenge. Herein, a new biomass benzoxazine monomer (C‐d) was synthesized, which was then sprayed on a glass slide, followed by spraying hyperbranched polysiloxane (HSi), polydopamine‐coated micro AlN (P@mAlN), and polydopamine‐coated nano AlN (P@nAlN), successively, to develop a new type of photothermal anti/deicing four‐layer fluor‐free composite coatings with high we… Show more

“…A new biomass benzoxazine monomer (C-d) with good flexibility was synthesized from cardanol, dehydroabietylamine and paraformaldehyde. 63 Micro- and nanosized fillers (P@mAlN, P@nAlN) were employed to create a micro/nanostructure on the surface of the C-d layer, resulting in superhydrophobicity. Additionally, the hyperbranched polysiloxane (HSi) layer enhanced wear and liquid puncture resistance by improving adherence between fillers and C-d. 116…”

Advancing coatings with polybenzoxazines: insights into molecular design, synthesis, and modification

“…A new biomass benzoxazine monomer (C-d) with good flexibility was synthesized from cardanol, dehydroabietylamine and paraformaldehyde. 63 Micro- and nanosized fillers (P@mAlN, P@nAlN) were employed to create a micro/nanostructure on the surface of the C-d layer, resulting in superhydrophobicity. Additionally, the hyperbranched polysiloxane (HSi) layer enhanced wear and liquid puncture resistance by improving adherence between fillers and C-d. 116…”

Advancing coatings with polybenzoxazines: insights into molecular design, synthesis, and modification

Enhancing comprehensive performances of polybenzoxazine through integration of soft core–soft shell cellulose‐based nanoparticles