Superfast Adsorption–Disinfection Cryogels Decorated with Cellulose Nanocrystal/Zinc Oxide Nanorod Clusters for Water-Purifying Microdevices

In outdoor activities and disaster environments, a portable microdevice is very important for the rapid purification of field drinking water. Smart cryogels were fabricated by one-pot copolymerization among acrylamide (AM) monomers, 2-(dimethylamino) ethyl methacrylate (DMAEMA) monomers, and cellulo...

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Bibliographic Details
Published in:ACS sustainable chemistry & engineering 2017-08, Vol.5 (8), p.6776-6785
Main Authors: Wang, Duan-Chao, Yu, Hou-Yong, Song, Mei-Li, Yang, Ren-Tong, Yao, Ju-Ming
Format: Article
Language:English
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Summary:In outdoor activities and disaster environments, a portable microdevice is very important for the rapid purification of field drinking water. Smart cryogels were fabricated by one-pot copolymerization among acrylamide (AM) monomers, 2-(dimethylamino) ethyl methacrylate (DMAEMA) monomers, and cellulose nanocrystal/zinc oxide (CNC/ZnO) nanorod clusters through a simple ice-template method. The effect of nanohybrid contents on microstructural, thermal, swelling, and antibacterial properties of cryogels-ZnO was investigated. With the incorporation of 1 wt % CNC/ZnO, the cryogels showed macroporous-networked structures with a high porosity of 93% and homogeneous nanorod clusters on the macroporous wall. Cryogels-ZnO showed high mechanical strength in both dry and wet states, an adsorption capacity of 30.8 g/g, superfast adsorption time (2.5 s), and a stable swelling–deswelling ability after 10 cycles. Additionally, the adsorption capacity of cryogels-ZnO presented a dual temperature/pH response. Upon treatment of the simulated field water with cryogels-ZnO for 45 min, the cfu amounts of simulated field water were decreased from 1862 to 6 cfu/mL. This cfu amount for treated water was much lower than the 100 cfu/mL of China’s national drinking water standard. In addition, cryogels-ZnO can effectively handle 14.3–16.1 g/g of disinfected drinking water by manual compression. Such cryogels-ZnO exhibited a great potential for field drinking-water-purifying microdevices.
ISSN:2168-0485
2168-0485
DOI:10.1021/acssuschemeng.7b01029