Waterborne Polydopamine-Polyurethane/Polyethylene Glycol-Based Phase Change Films for Solar-to-Thermal Energy Conversion and Storage

Abstract: Form-stable phase change films composed of a polydopamine-polyurethane polymer matrix with photothermal conversion properties and polyethylene glycol (PEG) are presented. Surfaces of environmentally friendly waterborne polyurethane (WPU) particles in aqueous dispersions were coated with polydopamine to create a stable waterborne dispersion of a polydopamine-polyurethane (PDA-WPU) matrix, which intrinsically presents significant photothermal conversion properties, and PEG was directly integrated into the PDA-WP… Show more

“…A stable, hybrid dispersion of the WPU/PDA polymeric matrix was obtained by encapsulating WPU particles with polydopamine via a onepot polymerization of the dopamine monomer in the WPU dispersion, as reported previously. 30,33 A substrate was coated with the WPU/PDA polymer matrix via spin coating, followed by the incubation of the WPU/PDA-coated substrate with an aqueous Lys solution, resulting in WPU/PDA/Lys coatings (Figure 1). The PDA component of the hybrid polymer matrix allowed the covalent immobilization of the Lys via Schiff base and Michael addition reactions between its quinone groups and the nucleophilic amino-functional groups of the Lys.…”

Lysostaphin-Functionalized Waterborne Polyurethane/Polydopamine Coatings Effective against S. Aureus Biofilms

“…A stable, hybrid dispersion of the WPU/PDA polymeric matrix was obtained by encapsulating WPU particles with polydopamine via a onepot polymerization of the dopamine monomer in the WPU dispersion, as reported previously. 30,33 A substrate was coated with the WPU/PDA polymer matrix via spin coating, followed by the incubation of the WPU/PDA-coated substrate with an aqueous Lys solution, resulting in WPU/PDA/Lys coatings (Figure 1). The PDA component of the hybrid polymer matrix allowed the covalent immobilization of the Lys via Schiff base and Michael addition reactions between its quinone groups and the nucleophilic amino-functional groups of the Lys.…”

Lysostaphin-Functionalized Waterborne Polyurethane/Polydopamine Coatings Effective against S. Aureus Biofilms

“…The CS/PVP, CS/PVP/PDA, and CS/PVP/PDA/WO 3 films were cut into 5 cm × 5 cm specimens with a thickness of 0.14 ± 0.03 mm. During irradiation under natural sunlight, data were collected at 20 min intervals, [ 24 ] and the temperature was recorded at each datapoint using a thermocouple probe (TaiShi TES 1310, China). In addition, the prepared CS/PVP/PDA/WO 3 film and a conventional plastic film were attached to the inner diameter of a beaker and stored at ≈5 °C.…”

Preparation of a Biodegradable Mulch Film Exhibiting a High Photothermal Conversion Efficiency and Bioactive Effects

“…192 During film preparation, multifunctional materials such as photothermal agents can be integrated to obtain versatile composite PCMs. For example, a form-stable and flexible PCM composite film composed of the polydopamine–polyurethane polymer matrix and PEG was reported by Tas et al 193 Waterborne polyurethane (WPU) particles were coated with polydopamine (PDA) to obtain the polymer matrix, followed by adding PEG into the PDA-WPU dispersion to form the final composite for film casting. The thermal stability and thermal conductivity of the amorphous polymer matrix were improved by its semicrystalline character induced by PEG addition.…”

Nanocellulose-based composite phase change materials for thermal energy storage: status and challenges