Reliable phase‐change polyurethane crosslinked by dynamic ionic‐bond crosslinking for thermal energy storage

Abstract: The fabrication of phase-change materials (PCMs) for thermal energy storage is of great significance, since they combine the sustainable development of energy and human comfortable. Herein, a dynamically crosslinked PCM was successfully fabricated by the blending of complementary polyurethanes bearing carboxylic acid and tertiary amine through reversible ionic bonds via the acid-base reaction. The resultant PCM exhibited good crystalline property, which was confirmed by wide-angle X-ray diffraction and polariz… Show more

“…Modification of plastic encapsulated PCMs by introducing chemical bonding offers a new idea for the application of waste plastics in phase change energy storage. Yuan et al 208,209 for the first time introduced the oxime carbamate bond into chemically crosslinked polyurethane to manufacture recyclable solid-solid PCMs and merged colorless chemical crosslinking and recyclability into a single solid-solid PCM. The finely dispersed polyethylene glycol (PEG) segment serves as a polymer framework as well as a phase change component.…”

Waste plastic to energy storage materials: a state-of-the-art review

“…Modification of plastic encapsulated PCMs by introducing chemical bonding offers a new idea for the application of waste plastics in phase change energy storage. Yuan et al 208,209 for the first time introduced the oxime carbamate bond into chemically crosslinked polyurethane to manufacture recyclable solid-solid PCMs and merged colorless chemical crosslinking and recyclability into a single solid-solid PCM. The finely dispersed polyethylene glycol (PEG) segment serves as a polymer framework as well as a phase change component.…”

Waste plastic to energy storage materials: a state-of-the-art review

“…By adjusting the temperature and adjusting these key interactions, we can control not only the thermal energy, but also the optical properties. Many PCMs will change their optical properties when phase change occurs, which shows the great potential of preparing intelligent optical materials 35–37 . ODMA is an efficient PCM with long alkyl chain and double bond functional groups.…”

Preparation and properties of a kind of high conductivity flexible wood with light switch characteristics

Recyclable solid‐solid phase‐change materials cross‐linked by reversible oximecarbamate bonds for solar energy storage