AI Article Synopsis

  • The paper discusses a new two-step method for applying copper patterns to various fabrics, enhancing their functionality for modern uses.
  • This technique minimizes copper pattern movement, ensuring stability and durability after washing, while significantly improving electrical conductivity and antibacterial properties.
  • The findings suggest this copper metallization process could advance the development of wearable electronics and functional clothing, representing a promising commercial opportunity.

Article Abstract

Throughout history earth-abundant copper has been incorporated into textiles and it still caters to various needs in modern society. In this paper, we present a two-step copper metallization strategy to realize sequentially nondiffusive copper(II) patterning and rapid copper deposition on various textile materials, including cotton, polyester, nylon, and their mixtures. A new, cost-effective formulation is designed to minimize the copper pattern migration on textiles and to achieve user-defined copper patterns. The metallized copper is found to be very adhesive and stable against washing and oxidation. Furthermore, the copper-metallized textile exhibits excellent electrical conductivity that is ~3 times better than that of stainless steel and also inhibits the growth of bacteria effectively. This new copper metallization approach holds great promise as a commercially viable method to metallize an insulating textile, opening up research avenues for wearable electronics and functional garments.

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http://dx.doi.org/10.1021/acsami.5b06807DOI Listing

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