Title of article
Surface chemistry improvement of carbon nanotube (CNT) supported Fischer–Tropsch nanocatalysts
Author/Authors
Karimi, Ali , Tavasoli, Ahmad School of Chemistry - College of Science - University of Tehran, Tehran , Davari, Maryam School of Chemistry - College of Science - University of Tehran, Tehran , Mohajeri, Ali
Pages
11
From page
82
To page
92
Abstract
Functionalization of carbon nanotube (CNT) was performed, during preparation of Fischer–Tropsch synthesis (FTS)
via cobalt nanocatalysts, to modify the surface properties of CNT support. Common and functionalized CNT supported
cobalt nanocatalysts were prepared using impregnation wetness method with cobalt loading of 15 wt.%. The catalysts
were characterized by Brunauer–Emmett–Teller (BET), Fourier transform infrared spectroscopy (FTIR), X-ray
diffraction (XRD), temperature program reduction (TPR), H2 chemisorption, and transmission electron microscopy
(TEM) technique. Most of the cobalt particles were homogeneously distributed inside the tubes and the rest on the
outer surface of the functionalized CNT. Functionalization of CNT shifted the TPR reduction peaks to lower
temperatures, improved the reduction degree, and increased the dispersion of cobalt particles and stability of
catalysts. The proposed cobalt catalyst supported on functionalized CNT- (N-doped functionalized CNT) increased the
FTS rate (g HC/gcat./hr), and CO conversion (%) from 0.1347, and 30 to 0.235, and 47 respectively, compared to that
of the catalyst prepared by impregnation wetness method on common CNT. Catalysts supported on functionalized
CNT also showed better stability.
Keywords
Fischer–Tropsch , Carbon nanotubes , Functionalization , Activity , Stability
Journal title
Astroparticle Physics
Serial Year
2014
Record number
2437813
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