%0 Journal Article
%T Improve in CO2 and CH4 Adsorption Capacity on Carbon Microfibers Synthesized by Electrospinning of PAN
%J Fibers | An Open Access Journal from MDPI
%D 2019
%R https://doi.org/10.3390/fib7100081
%X Carbon microfibers (CMF) has been used as an adsorbent material for CO 2 and CH 4 capture. The gas adsorption capacity depends on the chemical and morphological structure of CMF. The CMF physicochemical properties change according to the applied stabilization and carbonization temperatures. With the aim of studying the effect of stabilization temperature on the structural properties of the carbon microfibers and their CO 2 and CH 4 adsorption capacity, four different stabilization temperatures (250, 270, 280, and 300 ¡ãC) were explored, maintaining a constant carbonization temperature (900 ¡ãC). In materials stabilized at 250 and 270 ¡ãC, the cyclization was incomplete, in that, the nitrile groups (triple-bond structure, e.g., C¡ÔN) were not converted to a double-bond structure (e.g., C=N), to form a six-membered cyclic pyridine ring, as a consequence the material stabilized at 300 ¡ãC resulting in fragile microfibers; therefore, the most appropriate stabilization temperature was 280 ¡ãC. Finally, to corroborate that the specific surface area (microporosity) is not the determining factor that influences the adsorption capacity of the materials, carbonization of polyacrylonitrile microfibers (PANMFs) at five different temperatures (600, 700, 800, 900, and 1000 ¡ãC) is carried, maintaining a constant temperature of 280 ¡ãC for the stabilization process. As a result, the CMF chemical composition directly affects the CO 2 and CH 4 adsorption capacity, even more directly than the specific surface area. Thus, the chemical variety can be useful to develop carbon microfibers with a high adsorption capacity and selectivity in materials with a low specific surface area. The amount adsorbed at 25 ¡ãC and 1.0 bar oscillate between 2.0 and 2.9 mmol/g adsorbent for CO 2 and between 0.8 and 2.0 mmol/g adsorbent for CH 4, depending on the calcination treatment applicated; these values are comparable with other material adsorbents of greenhouse gases. View Full-Tex
%U https://www.mdpi.com/2079-6439/7/10/81