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Mulberry-paper-based composites for flexible electronics and energy storage devices

Cellulose (London), 2019-11, Vol.26 (16), p.8867-8875 [Peer Reviewed Journal]

Springer Nature B.V. 2019 ;Cellulose is a copyright of Springer, (2019). All Rights Reserved. ;ISSN: 0969-0239 ;EISSN: 1572-882X ;DOI: 10.1007/s10570-019-02686-5

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  • Title:
    Mulberry-paper-based composites for flexible electronics and energy storage devices
  • Author: Seo, Youngjae ; Hwang, Byungil
  • Subjects: Bioorganic Chemistry ; Ceramics ; Chemistry ; Chemistry and Materials Science ; Composite materials ; Composites ; Electronics ; Energy storage ; Flexible components ; Glass ; Hot pressing ; Microstructural analysis ; Nanoparticles ; Nanowires ; Natural Materials ; Organic Chemistry ; Original Research ; Physical Chemistry ; Polymer Sciences ; Reliability ; Silver ; Substrates ; Sustainable Development
  • Is Part Of: Cellulose (London), 2019-11, Vol.26 (16), p.8867-8875
  • Description: Mulberry paper comprising holocellulose shows excellent mechanical and chemical stability suitable for paper-based electronics. However, most studies pertaining to paper-based electronics have used conventional paper. Therefore, in this study, we demonstrated Ag nanoparticle (AgNP)/Ag nanowire (AgNW) flexible composites on mulberry-paper substrates. The AgNP/AgNW composites were fabricated by the dry transfer method, where the AgNP/AgNW layers were transferred from a polymer substrate with a hydrophobic surface to the toner-printed mulberry paper via hot pressing. Microstructural analysis showed that the mulberry papers contained thicker fibres than those in conventional papers, which limited the uniform transfer of the AgNP/AgNW layers on the mulberry papers. Therefore, we optimised the hot pressing conditions to 30 MPa and 80 °C, which allowed for the successful formation of the AgNP/AgNW composites on mulberry papers. Cyclic bending test results over 10,000 cycles revealed that the mulberry-paper-based composites showed better mechanical reliability with 30–40% smaller increases in resistance compared to those in conventional A4-paper-based composites. Lastly, a flexible supercapacitor fabricated using the mulberry-paper-based composite as the current collector showed excellent reliability without significant capacitance degradation over 100 bending cycles. Graphic abstract
  • Publisher: Dordrecht: Springer Netherlands
  • Language: English
  • Identifier: ISSN: 0969-0239
    EISSN: 1572-882X
    DOI: 10.1007/s10570-019-02686-5
  • Source: ProQuest Central
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