Abstract
Silver nanowires are receiving increasing attention as a kind of prospective transparent and conductive material. Here, we successfully synthesized high-performance silver nanowires with a significantly decreased reaction time by a modified polyol method. The synthesis process involved the addition of halides, including NaCl and NaBr, to control the release rate of Ag+ ions, as Cl− and Br− ions react with Ag+ ions to form AgCl and AgBr with different solubilities. As a result, Ag+ ions could be slowly released by graded dissolution, and the formation of silver nanowires was promoted. The results showed that the concentration of the added halides played an important role in the morphology of the final product. High-quality silver nanowires with an average diameter of 70 nm and average length of 21 μm were obtained by optimizing the reaction parameters. Afterwards, a simple silver nanowire coating was applied in order to fabricate the transparent conductive films. The film that was based on the silver nanowires provided a transmittance of 91.2% at the 550 nm light wavelength and a sheet resistance of about 78.5 Ω·sq−1, which is promising for applications in flexible and transparent optoelectronic devices.
Highlights
Transparent conductive materials have been recognized as being important in optoelectronic devices, such as liquid crystal displays (LCDs), touch panels, organic light-emitting diodes (OLEDs), and solar cells [1,2]
The transparent conductive film that was fabricated with the as-synthesized silver nanowires exhibited a good performance, demonstrating its potential application in optoelectronic devices
Silver nanowires were prepared by the NaCland NaBr-mediated modified polyol method
Summary
Transparent conductive materials have been recognized as being important in optoelectronic devices, such as liquid crystal displays (LCDs), touch panels, organic light-emitting diodes (OLEDs), and solar cells [1,2]. ITO films exhibit a low sheet resistance and relatively high transmittance in the visible light region. In comparison to the ITO films, silver nanowire conductive films prepared on flexible substrates can provide high flexibility as well as high light transmittance and electrical conductivity. It would be incorporated into low-resistance and high-transmittance portable optoelectronic devices [23]. Silver nanowires with a smaller diameter and longer length exhibit a higher transmittance and lower sheet resistance, which are crucial factors for applications in transparent electrodes. The transparent conductive film that was fabricated with the as-synthesized silver nanowires exhibited a good performance, demonstrating its potential application in optoelectronic devices
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