Multi-stimulus Response Behavior of Biomimetic Autocrine Waxy Materials for Potential Self-Constructing Surface Microstructures

Abstract: Many functions of terrestrial plant leaves rely on the regenerable epidermal wax layer. Biomimetic autocrine waxy materials (AWMs) inspired by renewable epidermal waxes are attracting increasing attention. However, the growth properties of the wax layer remain unclear, limiting the development of this promising material. This work focuses on the stimulated growth characteristics and microstructural regulation methods of the waxy layers. It is found that the wax layers exhibit a corresponding behavior of changi… Show more

“…This indicates that the high viscosity paraffin wax is not favorable for diffusing into the cross-linked network of PDMS. 29 The photothermal conversion properties of waxgel-C10 and waxgel-C17 have not been compared in experiments due to the inconvenience in sample handling caused by the low crystallization temperature (Fig. S9 in ESI†).…”

Photo-thermal waxgels with fast wax layer regeneration ability for anti-icing

“…This indicates that the high viscosity paraffin wax is not favorable for diffusing into the cross-linked network of PDMS. 29 The photothermal conversion properties of waxgel-C10 and waxgel-C17 have not been compared in experiments due to the inconvenience in sample handling caused by the low crystallization temperature (Fig. S9 in ESI†).…”

Photo-thermal waxgels with fast wax layer regeneration ability for anti-icing

Synthesis of a Multi‐Stimulus Responsive RGB Fluorescent Organic Molecule Based on Dark Through‐Bond Energy Transfer Mechanism