A5032414576- Phase Change Materials Research
- Polymer composites and self-healing
- Advanced Sensor and Energy Harvesting Materials
- Electrospun Nanofibers in Biomedical Applications
- Advanced Materials and Mechanics
Tiangong University
2021
The introduction of cross-linked monomers to solve the leakage problem solid–liquid phase-change materials (SLPCMs) has received wide research attention; however, no reports have stated use postprocessing methods obtain shape-stable (SSPCMs) quickly and efficiently. In present work, N-hexadecyl acrylate (HDA) was free-radical copolymerized with 4-acryloyloxybenzophenone (ABP) form a copolymer UV-sensitive groups. resultant further solidified under UV irradiation series novel SSPCMs. proposed...
Thermo-regulated fibers, which contain phase change materials with a melting temperature close to human body temperature, have attracted great scientific attention. Nanofibers poly(n-tetradecyl acrylate-co-n-hexadecyl acrylate) (poly(TDA-co-HDA)) as the core material and poly(acrylonitrile-co-vinylidene chloride) (P(AN-co-VDC) sheath were successfully fabricated by coaxial electrostatic spinning technology. The synthesized fibers possessed sheath/core structure of approximately 28 °C an...
Abstract Shape‐stable phase change materials (SSPCMs) have attracted increased attention as they can be used in applications such solar energy storage and smart textiles. Hexadecyl acrylate (HDA) was free‐radical copolymerized with allyl glycidyl ether (AGE) to form a copolymer epoxy groups. It further solidified diethylenetriamine series of novel SSPCMs. HDA could limited stable 3D cross‐linking network constructed from groups, giving PCM excellent shape stability. Infrared spectroscopy...