122 / 2021-11-14 20:35:51
Nanocellulose Membrane with Temperature-gated Nanochannels for Controllable Osmotic Energy Harvesting
Nanocellulose; Temperature-gated nanochannels; Controllable osmotic energy harvesting
Abstract Accepted
Xuejiao Lin / South China University of Technology
Haisong Qi / South China University of Technology

Reverse electrodialysis systems (REDs) based on nanochannels membrane has been widely researched for the high-performance osmotic energy harvesting. However, these nanochannels-based REDs are usually persistent and uncontrollable, which greatly prohibit the applications in versatile real-world. Herein, inspired by sensory neurons of mammals, the temperature-gated nanochannels was constructed by the functionalized Cladophora cellulose for controllable osmotic energy harvesting, in which the cationic Cladophora cellulose was grafting with poly(N-isopropylacrylamide) brushes via the atom-transfer radical polymerization. Based on this temperature-gated nanochannels, the output from osmotic energy harvesting systems could be regulated by alternating temperature switches in a reversible and stable manner. An output power density of 2.56 W/m−2 was achieved by mixing artificial seawater and river water, which was the relatively higher value of the nanocellulose based materials. Overall, this strategy first develops cellulose-based nanochannels membrane with both intelligent response and osmotic energy collection functions, which anticipates wide potentials for controllable osmotic energy harvesting.

Important Date
  • Conference Date

    Nov 20

    2021

    to

    Nov 21

    2021

  • Nov 16 2021

    Draft paper submission deadline

  • Nov 18 2021

    Contribution Submission Deadline

  • Nov 18 2021

    Registration deadline

Sponsored By
China Paper Industry Technical Association
Organized By
South China University of Technology
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