Litcius/Paper detail

Core@double‐shell structured multifunctional phase change microcapsules based on modified graphene oxide Pickering emulsion

Huan Wei, Wenbin Yang, Fangfang He, Yongsheng Li, Lan Lou, Renchao Wang, Ren He, Jinghui Fan, Kai Zhang

2020International Journal of Energy Research29 citationsDOI

Abstract

New multifunctional phase change microcapsules with paraffin (Pn) as core and GO and lead tungstate (PbWO4) as double-shell were designed by modified GO Pickering emulsion, and the effect of GO content on Pn@GO@PbWO4 microcapsules was studied. The morphology, chemical composition, and structure of Pn@GO@PbWO4 microcapsules were characterized, and their performance was studied in depth. The Pn@GO@PbWO4 microcapsules had a dense shell and a regular spherical structure. Compared with microcapsules without GO addition, the resultant Pn@GO@PbWO4 microcapsules could demonstrate high phase change reliability and thermal stability. Most of all, the anti-seepage performance had been greatly improved by 67.27%. The results of contact angle (CA) measurement and gamma-ray shielding test showed that the GO and PbWO4 double-shell multifunctional microcapsules with superhydrophobic property and good gamma-ray shielding property and high anti-seepage performance had great attraction in expanding the application field of phase change materials.

Topics & Concepts

EmulsionMaterials sciencePickering emulsionShell (structure)Electromagnetic shieldingCore (optical fiber)OxidePhase (matter)GrapheneThermal stabilityTungstateContact angleChemical engineeringComposite materialShielding effectNanotechnologyChemistryMetallurgyEngineeringOrganic chemistryPhase Change Materials ResearchPolymer composites and self-healingSolar-Powered Water Purification Methods