Insulator-Conductor Type Transitions in Graphene-Modified Silver Nanowire Networks: A Route to Inexpensive Transparent Conductors

Insulator-Conductor Type Transitions in Graphene-Modified Silver Nanowire Networks: A Route to Inexpensive Transparent Conductors

Silver nanowire coatings are an attractive alternative to indium tin oxide for producing transparent conductors. To fabricate coatings with low sheet resistance required for touchscreen displays, a multi‐layer network of silver nanowires must be produced that may not be cost effective. This problem...

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Bibliographic Details
Published in:Advanced functional materials Vol. 24; no. 48; pp. 7580 - 7587
Main Authors: Jurewicz, Izabela, Fahimi, Azin, Lyons, Phillip E., Smith, Ronan J., Cann, Maria, Large, Matthew L., Tian, Mingwen, Coleman, Jonathan N., Dalton, Alan B.
Format: Journal Article
Language:English
Published: Blackwell Publishing Ltd 23-12-2014
Subjects:
Coatings
Conduction
Electrodes
Graphene
hybrid materials
langmuir schaefer
Nanowires
Networks
pristine graphene
Silver
silver nanowires
Touch screens
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Summary:Silver nanowire coatings are an attractive alternative to indium tin oxide for producing transparent conductors. To fabricate coatings with low sheet resistance required for touchscreen displays, a multi‐layer network of silver nanowires must be produced that may not be cost effective. This problem is counteracted here by modifying the electrical properties of an ultra‐low‐density nanowire network through local deposition of conducting graphene platelets. Unlike other solution‐processed materials, such as graphene oxide, our pristine graphene is free of oxygen functional groups, resulting in it being electrically conducting without the need for further chemical treatment. Graphene adsorption at inter‐wire junctions as well as graphene connecting adjacent wires contributes to a marked enhancement in electrical properties. Using our approach, the amount of nanowires needed to produce viable transparent electrodes could be more than 50 times less than the equivalent pristine high density nanowire networks, thus having major commercial implications. Using a laser ablation process, it is shown that the resulting films can be patterned into individual electrode structures, which is a pre‐requisite to touchscreen sensor fabrication. A simple, scalable, and relatively inexpensive method is described for preparing highly conducting AgNW/graphene hybrid transparent electrodes that use low‐cost solution‐processed pristine graphene. A combination of spray deposition and Langmuir‐based techniques is used to produce ultrathin films with controlled nanowire and graphene densities. The results indicate that these graphene/nanowire hybrid films may serve as a cheap replacement for existing technologies in electronic devices.
Bibliography:ark:/67375/WNG-K3404SMT-V
istex:A6EA22D59091AD271B2B62ADB60A1CEEFAB4E57F
ArticleID:ADFM201402547
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.201402547