Abstract
Small, uniform and suspended silver nanoparticles were directly prepared in CO2-expanded hexane by reducing a synthesized metal precursor, silver isostearate, with hydrogen but without introducing additional capping agents. By increasing CO2 pressure, the suspended silver nanoparticles could be further deposited on a solid substrate to form silver thin film via gas antisolvent and the subsequent supercritical drying processes. The silver thin films prepared by the aforementioned method possessed a uniform thickness of about 150nm without surface cracking and low electrical resistivity (5.64×10−6Ωcm) after applying an annealing process. Due to the deposition of nano-sized silver particles, the annealing temperature could be as low as 175°C that is lower than the softening points of many transparent polymeric substrates used for fabrication of flexible conductive films.
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