Journal
CHEMICAL COMMUNICATIONS
Volume 56, Issue 28, Pages 3935-3938Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c9cc09936k
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Funding
- Hainan Science and Technology Major Project [ZDKJ2019013]
- Hainan Provincial Natural Science Foundation of China [2019CXTD401]
- National Key R&D program of China [2018YFE0103500]
- Finance Science and Technology Project of Hainan Province [ZDYF2018004]
- National Natural Science Foundations of China [21965010, 51775152, 61761016, U1967213]
- Research Foundations of Hainan University [KYQD(ZR)1811, KYQD(ZR)1814, KYQD(ZR)1815]
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A bio-inspired cellulose paper-poly(amidoxime) composite hydrogel is explored via UV-polymerization. This hydrogel has a highly efficient uranium capture capacity of up to 6.21 mg g(-1) for W-U/W-dry gel and 12.9 mg g(-1) for W-U/W-poly(amidoxime) in seawater for 6 weeks, due to its enhanced hydrophilicity, good hydraulic/ionic conductivity and broad-spectrum antibacterial performance.
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