三维有机导电网络嵌入纸张中用于柔性和可折叠器件。

Three-Dimensional Organic Conductive Networks Embedded in Paper for Flexible and Foldable Devices.

机构信息

Brazilian Nanotechnology National Laboratory (LNNano), CNPEM , 13083-970 Campinas, São Paulo, Brazil.

Institute of Physics "Gleb Wataghin" (IFGW), UNICAMP , 13083-859 Campinas, São Paulo, Brazil.

出版信息

ACS Appl Mater Interfaces. 2016 May 4;8(17):10661-4. doi: 10.1021/acsami.6b02589. Epub 2016 Apr 19.

DOI:10.1021/acsami.6b02589

PMID:27065112

Abstract

The fabrication of three-dimensional (3D) polypyrrole conductive tracks through the porous structure of paper is demonstrated by the first time. We combined paper microfluidics and gas-phase pyrrole monomers to chemically synthesize polypyrrole-conducting channels embedded in-between the cellulose fibers. By using this method, foldable conductive structures can be created across the whole paper structure, allowing the electrical connection between both sides of the substrate. As a proof of concept, top-channel-top (TCT) and top-channel-bottom (TCB) conductive interconnections as well as all-organic paper-based touch buttons are demonstrated.

摘要

首次通过纸张的多孔结构展示了三维（3D）聚吡咯导电轨道的制造。我们将纸张微流控技术和气相吡咯单体结合起来，通过化学合成将聚吡咯导电通道嵌入纤维素纤维之间。通过这种方法，可以在整个纸张结构中创建可折叠的导电结构，从而实现基底两侧的电气连接。作为概念验证，展示了顶通道顶（TCT）和顶通道底（TCB）导电互连以及全有机纸质触摸按钮。

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三维有机导电网络嵌入纸张中用于柔性和可折叠器件。

Three-Dimensional Organic Conductive Networks Embedded in Paper for Flexible and Foldable Devices.

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