Surface chemical characterization using AES/SAM and ToF-SIMS on KOH-impregnated activated carbon by selective adsorption of NOx

Authors
Lee, YWChoi, DKPark, JW
Issue Date
2001-07-25
Publisher
AMER CHEMICAL SOC
Citation
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, v.40, no.15, pp.3337 - 3345
Abstract
KOH-impregnated activated carbon (K-IAC) was studied as a NOx adsorbent. When adsorbing NO2/air to K-IAC, as the concentration increases, the removal efficiency relatively decreases because the function of the selective adsorption site for NOx is lost faster. By using AES/SAM and ToF-SIMS, we examined the chemical characteristics created on K-IAC through adsorption of NOx. Oxide crystals formed on the surface of K-IAC after adsorption of NO, was a result of the chemical bond among K, N, and O. KNO3 was predominantly distributed on the external surface, and the pore of K-IAC showed blocking from the crystal growth of KNO3. The results showed that surface basic OH-, well developed on the surface because of KOH impregnation, acts as a selective adsorption site. This study pointedly illustrates selective adsorption behavior from strong chemical interaction between NOx and K-IAC.
Keywords
REDUCTION; POTASSIUM; TEMPERATURE; EQUILIBRIA; CHEMISTRY; OXIDATION; MOISTURE; OXYGEN; COAL; AREA; REDUCTION; POTASSIUM; TEMPERATURE; EQUILIBRIA; CHEMISTRY; OXIDATION; MOISTURE; OXYGEN; COAL; AREA; activated carbon
ISSN
0888-5885
URI
https://pubs.kist.re.kr/handle/201004/140307
DOI
10.1021/ie001068q
Appears in Collections:
KIST Article > 2001
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