| Literature DB >> 34242431 |
Baiheng Wu1,2, Chenjing Yang2, Qi Xin2, Linlin Kong2, Max Eggersdorfer3,4, Jian Ruan1, Peng Zhao1, Jianzhen Shan1, Kai Liu5, Dong Chen1,2, David A Weitz4, Xiang Gao2.
Abstract
Properties of emulsions highly depend on the interdroplet interactions and, thus, engineering interdroplet interactions at molecular scale are essential to achieve desired emulsion systems. Here, attractive Pickering emulsion gels (APEGs) are designed and prepared by bridging neighboring particle-stabilized droplets via telechelic polymers. In the APEGs, each telechelic molecule with two amino end groups can simultaneously bind to two carboxyl functionalized nanoparticles in two neighboring droplets, forming a bridged network. The APEG systems show typical shear-thinning behaviors and their viscoelastic properties are tunable by temperature, pH, and molecular weight of the telechelic polymers, making them ideal for direct 3D printing. The APEGs can be photopolymerized to prepare APEG-templated porous materials and their microstructures can be tailored to optimize their performances, making the APEG systems promising for a wide range of applications.Entities:
Keywords: 3D printing; emulsion gels; pickering emulsions; porous materials; shear thinning
Year: 2021 PMID: 34242431 DOI: 10.1002/adma.202102362
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849