eipc
Switchable Wettability of Thermoresponsive Core–Shell Nanofibers for Water Capture and Relea 期刊名称: ACS Sustainable Chemistry & Engineering
作者: Soyoung Kim,Heechul Choi
年份: 2019年
期号: 第XXX期
关键词: water harvesting;core−shell;poly(N-
lafontainemhovinylcaprolactam);thermoresponsive;electrospinning
摘要:The capture and relea of water from atmospheric humidity is a recognized green technology for efficient water harvesting. A key issue limiting this technology is the lack of water sorbents capable of consuming less heat energy when regenerate; thereby the u of smart materials triggered by a small change in temperature resulting in altering their hydrophilic/hydrophobic properties are needed. In this rearch, we ud a coaxial electrospinning technique to fabricate temperature-responsive hydr
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ogel nanofibers with a core-shell structure for u in water capture and relea in thermally simulated systems. The nanostructure, the water sorption capacity and kinetics of the nanofibers were affected by varying the thickness of the shell layer, which consisted of a thermo-responsive polymer. The behavior of water capture and
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