화학공학소재연구정보센터
Langmuir, Vol.14, No.13, 3501-3505, 1998
Evolution of the rhodium colloid supported on graphite studied by atomic force microscopy in the tapping mode
Rhodium colloid stabilized by trioctylamine and deposited on a highly oriented pyrolitic graphite was studied by atomic force microscopy in the tapping mode. Most of the intact colloid particles are found to be agglomerated via two-dimensional islands or sphere-shaped clusters attached to the steps of the graphite surface. No particle sintering occurs after thermal treatments in vacuo at 100-550 degrees C. Oxidation at 550 degrees C leads to sintering of the particles contacting with the carbon support but not within spherical 3D-aggregates. In addition, AFM images show the gasification trails following the Rh particles on graphite. Data indicate a strong colloid-support interaction under oxidative conditions.