Fabrication And Characterization Of Transparent Conductive Film Based On Bacterial Cellulose
KOREAN CHEMICAL ENGINEERING RESEARCH(2013)
摘要
A transparent film was fabricated based on bacterial cellulose (BC), BC has excellent physical strength and stability at high temperature and it is an environmental friendly flexible material. In order to improve the conductivity, silver nanowire (AgNW) and/or graphene were introduced to the BC membrane. The aspect ratio of the AgNW synthesized in this study was 214, with a length of 15 mu m and width of 70 nm. The higher aspect ratio improved the conductivity by reducing the contact resistance. The thermal and electrical properties of 7 types of films prepared were investigated. Each film was fabricated with rectangular shape (2 mm x 2 mm x 50 mu m). The films were scored with a net shape by a knife, and filled with AgNW and graphene to bestow conductivity. The film filled with AgNW showed favorable electrical characteristics with a thickness of 350 mu m, electron concentration of 1.53x10(19), electron mobility of 6.63x10(5), and resistivity of 0.28. The film filled with graphene had a thickness of 360 mu m, electron concentration of 7.74 x10(17), electron mobility of 0.17, and resistivity of 4.78. The transmittances at 550 nm were 98.1% and 80.9%, respectively. All the films were able to light LEDs bulbs although their brightness differed. A thermal stability test of the BC and PET films at 150 +/- 5 degrees C showed that the BC film was more stable, whereas the PET film was quickly banded. From these results, it was confirmed that there it is possible to fabricate new transparent conductivity films based on BC.
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关键词
Graphene, Silver Nanowire, Bacterial Cellulose, Transparent, Conductivity Film
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