期刊
NANOTECHNOLOGY
卷 27, 期 38, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/0957-4484/27/38/385603
关键词
Ag nanoparticles; graphene; conductive ink; electrical properties
资金
- International S&T Cooperation Program of China [2015DFI53030]
- Key Laboratory of Lightweight and Reliability Technology for Engineering Vehicle, Education Department of Hunan Province (Changsha University of Science Technology) [2014KFJJ02]
Printed-electronics inks belong to a class of novel functional conductive inks that can be used to form high-precision conducting lines or circuits on various flexible substrates. Previous studies have reported conductive inks produced by the reduction and membrane separation method for use in flexible devices. However, it remains a challenge to synthesize conductive inks with high electrical properties at low sintering temperatures, which restricts their range of applications. Herein, we prepare inkjet-printed patterns of conductive inks consisting of Ag nanohexagonal platelets (AgNHPs) as the main component and containing graphene (GE) in different contents. It is found that GE improves the electrical conductivity of the patterns when sintering is done at relatively low temperatures. For instance, when the GE content is 0.15 mg ml(-1), the resistivity is the lowest. When sintering is done at 150 degrees C, the resistivity (2.7. x. 10(-6) Omega.cm) of the GEAgNHPs conductive ink (GE: 0.15 mg ml(-1)) is 14% of that of the AgNHPs conductive ink; on the other hand, after sintering at 50 degrees C, this ratio is 2%. It is also found that, with the increase in GE content, the resistivity of the GE-AgNHPs conductive ink increases. This study on GEAgNHPs conductive inks sintered at low temperatures should further the development of flexible touch screens.
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