AI Article Synopsis
- A new method to create flexible and conductive paper using electroless deposition (ELD) with aminocellulose as an interface layer is introduced.
- The resulting copper nanoparticles (Cu NPs)-coated cellulose paper shows impressive conductivity with a resistance of just 0.38 Ω sq after 10 minutes.
- This technique not only works on cellulose paper but also on polypropylene-filled hybrid paper, offering a smooth and hydrophobic surface suitable for electronic applications, paving the way for affordable production of flexible electronics.
Article Abstract
Herein, a novel, facile, and versatile approach to fabricate highly flexible and conductive paper is proposed by electroless deposition (ELD) with the assistance of aminocellulose as the interface layer. The obtained Cu nanoparticles (NPs)-coated cellulose paper is highly conductive with a significant low resistance of 0.38 Ω sq after only 10 min of ELD treatment. This conductive cellulose paper shows excellent stability when it suffers from bending, folding, and tape adhesion cycles. With the same method, the Cu NPs can also be successfully deposited on the polypropylene (PP)-filled hybrid paper. The conductive paper exhibits very smooth and hydrophobic surface with high reflection, which can be used for special electronic devices. In a word, the fabrication of aminocellulose interface permits a controlled ELD of metal nanoparticles on paper substrate, and this mild and low-cost method opens up new opportunities for large-scale production of flexible and wearable electronics.
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| http://dx.doi.org/10.1002/marc.202000499 | DOI Listing |
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