Articles
  • Fabrication and characterization of silver-doped silica composite membranes by a reverse micelle and Sol-Gel process
  • Hyeon Cheol Kima, Hyun Ju Kima, Hoyyul Parkb and Dong Sik Baea,*
  • a School of Nano & Advanced Material Eng., Changwon National Univ.,Gyeongnam 641-773, Korea b Hybrid Materials Research Division, Korea Electrotechnology Research Institute, Changwon, 641-600, Korea
Abstract
Ag-doped SiO2 composites nano-powders were synthesized by a reverse micelle and sol-gel process. The average particle size of the mixed sol was below 25 nm and was well dispersed in the solution. TEM results show the microstructure of Ag- doped SiO2 nanoparticles was homogeneous and Ag was below 5 nm and Ag was well dispersed in the ceramic nano-particles. Agdoped SiO2 composite membranes were fabricated by a sol-gel process. Ag-doped SiO2 composite membranes showed a crackfree microstructure and a narrow particle size distribution even after heat treatment up to 500 oC. The average particle size of the membrane was 30-40 nm, and the pore size of Ag-doped SiO2 nano composite membranes was below 10 nm. The particle size of Ag after heat treatment at 500 oC was below 5 nm. Key words: Ag doped SiO2, Membranes, Reverse micelle, Sol-Gel processes.

Keywords: Ag doped SiO2, Membranes, Reverse micelle, Sol-Gel processes.

This Article

  • 2009; 10(3): 308-310

    Published on Jun 30, 2009

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