期刊
MICROPOROUS AND MESOPOROUS MATERIALS
卷 203, 期 -, 页码 24-31出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.micromeso.2014.10.025
关键词
Polysiloxane; Silicon carbide derived carbons; Chlorination; Post-treatment; CO2 capture performance
类别
资金
- National Natural Science Foundation of China [91116001]
- Hunan Provincial Natural Science Foundation of China [S2010J504B]
- Aid Program for Science and Technology Innovative Research Team in Higher Educational Institutions of Hunan Province
- Aid Program for Innovative Group of National University of Defense Technology
Microporous silicon carbide derived carbons (SiC-DCs) were obtained by chlorination with post treatment in ammonia (NH3) using a commercially available polymethyl(phenyl)siloxane resin. In this paper, attentions were focused on the compositional and structural evolutions as well as the CO2 capture performances of SiC-DCs as a function of chlorination temperature or affected by post-treatment. Microscopy analysis showed that the geometry and macrostructure, as well as the observed graphite ribbons were finely inherited from the as-received silicon carbide. Post-treatment under NH3 could introduce a few nitrogen-contained groups to SiC-DCs, and has an advantage on increasing the ultra-microporosity with little effect on the carbon crystallinity, both of which finally help increasing the CO2 adsorption capacity. Increasing etching temperature (900-1100 degrees C) would lead to a tiny increase of carbon crystallinity and porosity (specific surface area and total pore volume). However, the ultra-micropore volume decreased instead, thus leading to a decrease of CO2 adsorption capacity. The final SiC-DCs samples exhibit excellent CO2 capture performances at 0 degrees C under the ambient pressure, with a maximum value of 5.75 mmol/g. Under the same condition, the N-2 adsorption is as low as 0.46 mmol/g, suggesting a potential selective adsorbent for CO2 and N-2 separation. (C) 2014 Elsevier Inc. All rights reserved.
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