1. Moisture Absorbing and Water Self‐Releasing from Hybrid Hydrogel Desiccants.
- Author
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Nah, So Hee, Lee, Yunchan, Yu, Kun‐Hao, Chi, Yinding, Lee, Hyemin, Chen, Baohong, Patel, Mohit, Wang, Kunyu, and Yang, Shu
- Subjects
DRYING agents ,HYDROGELS ,HUMIDITY ,CLEAN energy ,MOISTURE ,WATER harvesting ,ACRYLIC acid - Abstract
Atmospheric moisture is a valuable resource for fresh water and potentially sustainable energy. However, direct harvesting water from moisture (the vapor form) remains the most challenging. Hybrid desiccants made from hydrogels embedded with salt offer promise in absorbing moisture. However, the desorption process often requires additional energy to heat the samples. Here, poly(acrylic acid) (PAA) hydrogels embedded with lithium chloride are prepared, demonstratng simultaneous moisture absorption and self‐release of liquid water at room temperature with 50–90% relative humidity. The water self‐releasing process can be separated into two distinct stages: 1) surface release, where water droplets grow on the hydrogel surface due to differences in nucleation and diffusion rates, and 2) bulk release, triggered by the collapse of polymer chains, subsequently releasing water from the hydrogel network. Factors such as salt concentration, hydrogel crosslinking density, and film thickness are investigated to better understand the moisture absorption and water‐releasing processes. Moreover, hydrophobic domains are introduced onto the salt‐embedded PAA films, creating an edge effect that enhances the droplet growth rates. When the hydrophobic domains are patterned, the movement of released water can be guided, resulting in a threefold increase in water removal rate attributed to gravitational force. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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