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W3044294220 abstract "Protein nanostructures in living organisms have attracted intense interests in biology and material science owing to their intriguing abilities to harness ion transportation for matter/signal transduction and bioelectricity generation. Silk nanofibrils, serving as the fundamental building blocks for silk, not only have the advantages of natural abundance, low cost, biocompatibility, sustainability, and degradability but also play a key role in mechanical toughness and biological functions of silk fibers. Herein, cationic silk nanofibrils (SilkNFs), with an ultrathin thickness of ∼4 nm and a high aspect ratio up to 500, were successfully exfoliated from natural cocoon fibers via quaternization followed by mechanical homogenization. Being positively charged in a wide pH range of 2-12, these cationic SilkNFs could combine with different types of negatively charged biological nanofibrils to produce asymmetric ionic membranes and aerogels that have the ability to tune ion translocation. The asymmetric ionic aerogels could create an electric potential as high as 120 mV in humid ambient air, whereas asymmetric ionic membranes could be used in ionic rectification with a rectification ratio of 5.2. Therefore, this green exfoliation of cationic SilkNFs may provide a biological platform of nanomaterials for applications as diverse as ion electronics, renewable energy, and sustainable nanotechnology." @default.
W3044294220 created "2020-07-29" @default.
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W3044294220 date "2020-07-27" @default.
W3044294220 modified "2023-10-12" @default.
W3044294220 title "Quaternized Silk Nanofibrils for Electricity Generation from Moisture and Ion Rectification" @default.
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W3044294220 doi "https://doi.org/10.1021/acsnano.0c04686" @default.
W3044294220 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32806080" @default.
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