1. Sol-gel preparation of Ag-silica nanocomposite with high electrical conductivity
- Author
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Hao Zhang, Yuwei Jiang, Zhijun Ma, Mingying Peng, Guoping Dong, Bofan Jiang, Jian Yang, Xiang Yu, and Huisi Xiao
- Subjects
Nanocomposite ,Materials science ,General Physics and Astronomy ,Nanoparticle ,02 engineering and technology ,Surfaces and Interfaces ,General Chemistry ,Conductivity ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Electrospinning ,0104 chemical sciences ,Surfaces, Coatings and Films ,Silicon alkoxide ,chemistry.chemical_compound ,chemistry ,Chemical engineering ,Nanofiber ,0210 nano-technology ,Mesoporous material ,Sol-gel - Abstract
Sol-gel derived noble-metal-silica nanocomposites are very useful in many applications. Due to relatively low price, higher conductivity, and higher chemical stability of silver (Ag) compared with copper (Cu), Ag-silica has gained much more research interest. However, it remains a significant challenge to realize high loading of Ag content in sol-gel Ag-silica composite with high structural controllability and nanoparticles’ dispersity. Different from previous works by using multifunctional silicon alkoxide to anchor metal ions, here we report the synthesis of Ag-silica nanocomposite with high loading of Ag nanoparticles by employing acetonitrile bi-functionally as solvent and metal ions stabilizer. The electrical conductivity of the Ag-silica nanocomposite reached higher than 6800 S/cm. In addition, the Ag-silica nanocomposite could simultaneously possess high electrical conductivity and positive conductivity-temperature coefficient by properly controlling the loading content of Ag. Such behavior is potentially advantageous for high-temperature devices (like phosphoric acid fuel cells) and inhibiting the thermal-induced increase of devices’ internal resistance. The strategy proposed here is also compatible with block-copolymer directed self-assembly of mesoporous material, spin-coating of film and electrospinning of nanofiber, making it more charming in various practical applications.
- Published
- 2018
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