Your search keyword '"Halil Tekinalp"' showing total 2 results

1. The effect of molecular composition and structure on the development of porosity in pitch-based activated carbon fibers

Author

Halil Tekinalp, B. Fathollahi, Mark C. Thies, and Eduardo G. Cervo

Subjects

Materials science, Carbonization, Supercritical fluid extraction, Mesophase, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Volume (thermodynamics), Chemical engineering, Polymer chemistry, medicine, Molar mass distribution, Molecule, General Materials Science, 0210 nano-technology, Porosity, Activated carbon, medicine.drug

Abstract

Seven oligomeric fractions of well-defined composition and molecular weight distribution were generated via supercritical extraction from an isotropic petroleum pitch (M-50) and used as precursors for the production of activated carbon fibers. Both isotropic and mesophase-containing fractions were produced, so that the effects of molecular order and molecular weight could be separated. Carbonization weight loss was found to gradually decrease with increasing molecular weight (and oligomeric number), with mesophase content not being a significant factor. Similar behavior was observed for activation weight loss when the precursors were isotropic; however, even modest increases in molecular order significantly retarded the activation process and resulted in dramatic drops in specific pore volume. A 100% dimer precursor fraction with an average molecular weight of 480 Da produced activated carbon fibers with the highest (specific) pore volume, and the highest pore volume in the range desired for hydrogen adsorption (6–7 A). Even for isotropic precursors, decreases in pore volume with increasing molecular weight were observed. The incremental pore size distribution generated from the nitrogen adsorption data consisted of discrete peaks, which is consistent with the formation of pores by the removal of short micrographene layers, with each layer being formed from an individual oligomeric molecule.

Published

2013

2. The effect of processing conditions on microstructure of Pd-containing activated carbon fibers

Author

Cristian I. Contescu, Xianxian Wu, Halil Tekinalp, Vinay V. Bhat, Nidia C. Gallego, Mark C. Thies, and Frederick S. Baker

Subjects

Thermogravimetric analysis, Materials science, Oxide, Sintering, Mineralogy, General Chemistry, Microstructure, chemistry.chemical_compound, chemistry, Chemical engineering, Transmission electron microscopy, Phase (matter), medicine, General Materials Science, Dispersion (chemistry), Activated carbon, medicine.drug

Abstract

Palladium-doped activated carbon fibers are being evaluated as candidate materials for enhanced hydrogen storage at near ambient conditions. Pd-doped fibers were spun using a Pd salt mixed with an isotropic pitch precursor. Experimental techniques such as in situ X-ray analysis, thermogravimetric studies, scanning transmission electron microscopy and gas adsorption were employed to understand how processing conditions for the production of Pd-doped activated carbon fibers affect the microstructure, pore development, and dispersion of metal particles throughout the fibers. The results showed that PdO phase is present in the stabilized fibers and that this oxide phase is stable up to about 250 °C. The oxide phase transforms into Pd metal with increasing heat treatment temperature, going through the formation of an intermediate carbide phase. Sintering of Pd particles was observed with heat treatment at temperatures over 750 °C. It was also found that pore development during physical activation with CO2 was not significantly affected by the presence of Pd particles within the fibers.

Published

2008