疏水
材料科学
封装(网络)
化学工程
自愈水凝胶
疏水效应
纳米技术
细胞包封
表面能
粒径
自组装
图层(电子)
液态液体
疏水二氧化硅
不稳定性
粒子(生态学)
电磁屏蔽
作者
Hyeonjin Kim,Se Youn Jang,Ji Eun Lee,Jin Yoo,Syuji Fujii,Jongkuk Ko,Sanghyuk Wooh
标识
DOI:10.1038/s41467-026-70955-6
摘要
Hydrophobic skins on fruits play a crucial role in preventing dehydration and shielding against environmental stress. Inspired by this natural structure, hydrophobic encapsulation is widely employed to preserve the functionality and long-term stability of hydrogels. However, instability at the interface between hydrophobic shell and hydrogel remains a critical challenge. Here, we present a hydrogel encapsulation strategy to stabilize the incompatible interface using a concept of liquid marble, where liquid droplet is covered with hydrophobic particles. A uniform nonpolar liquid layer is first formed on the hydrogel surface through interfacial bridges with hydrophobic particles. A secondary hydrophobic particle layer is then deposited onto this liquid layer to prevent leakage, yielding a multi-layered marble (MLM) structure. This MLM-encapsulation is highly versatile, accommodating various hydrogels, liquids, and structural configurations. By maintaining hydrogel performance and functionality across diverse applications, MLM-encapsulation provides a universal and robust solution for overcoming the long-standing interfacial instability problem. Hydrogel encapsulation prevents dehydration, but maintaining interfacial stability with hydrophobic shells remains challenging. Here, the authors use a multi-layered marble strategy composed of two hydrophobic particle layers with sandwiched oil layer that stabilizes the interface.
科研通智能强力驱动
Strongly Powered by AbleSci AI