Research output: Contribution to journal › Article › peer-review
Comparison of adsorbents containing carbon nanotubes for express pre-concentration of volatile organic compounds from the air flow. / Rodinkov, Oleg; Postnov, Victor; Spivakovskyi, Valery; Vlasov, Andrey; Bugaichenko, Alexandra; Slastina, Svetlana; Znamenskaya, Ekaterina; Shilov, Roman; Lanin, Sergey; Nesterenko, Pavel.
In: Separations, Vol. 8, No. 4, 50, 14.04.2021.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Comparison of adsorbents containing carbon nanotubes for express pre-concentration of volatile organic compounds from the air flow
AU - Rodinkov, Oleg
AU - Postnov, Victor
AU - Spivakovskyi, Valery
AU - Vlasov, Andrey
AU - Bugaichenko, Alexandra
AU - Slastina, Svetlana
AU - Znamenskaya, Ekaterina
AU - Shilov, Roman
AU - Lanin, Sergey
AU - Nesterenko, Pavel
N1 - Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2021/4/14
Y1 - 2021/4/14
N2 - New composite adsorbents including silica supports (silica, aerosilogel, and diatomite) and carbon materials (multiwall carbon nanotubes and pyrolytic carbon) have been prepared and characterized. The analytical capabilities of the produced sorbents have been evaluated by their efficiency in the express pre-concentration of volatile organic compounds (butanol and phenols) from the air stream. The prepared surface-layered adsorbents containing multiwall carbon nanotubes placed onto the surface of aerosilogel by use of the carbon vapor deposition method with preloading cobalt nanostructures as a catalyst were found significantly more efficient than traditionally used graphitic carbon-based adsorbents Carbopacks B, C, and X. Additionally, a new adsorbent composed of diatomite Porochrome-3 support coated with a pyrocarbon layer was prepared. This low surface area composited adsorbent allowed both quantitative pre-concentration of phenol and isomeric cresols from the air and their thermal desorption. The developed adsorbents provided fast pre-concentration of selected phenols with a concentration factor of 2 × 103 in 5 min and were used for gas chromatographic determination of analytes in the air at low concentration levels starting from several µg/m3 with a flame ionization detector.
AB - New composite adsorbents including silica supports (silica, aerosilogel, and diatomite) and carbon materials (multiwall carbon nanotubes and pyrolytic carbon) have been prepared and characterized. The analytical capabilities of the produced sorbents have been evaluated by their efficiency in the express pre-concentration of volatile organic compounds (butanol and phenols) from the air stream. The prepared surface-layered adsorbents containing multiwall carbon nanotubes placed onto the surface of aerosilogel by use of the carbon vapor deposition method with preloading cobalt nanostructures as a catalyst were found significantly more efficient than traditionally used graphitic carbon-based adsorbents Carbopacks B, C, and X. Additionally, a new adsorbent composed of diatomite Porochrome-3 support coated with a pyrocarbon layer was prepared. This low surface area composited adsorbent allowed both quantitative pre-concentration of phenol and isomeric cresols from the air and their thermal desorption. The developed adsorbents provided fast pre-concentration of selected phenols with a concentration factor of 2 × 103 in 5 min and were used for gas chromatographic determination of analytes in the air at low concentration levels starting from several µg/m3 with a flame ionization detector.
KW - Adsorption
KW - Aerosilogel
KW - Air
KW - Alcohols
KW - Analysis
KW - Multiwall carbon nanotubes
KW - Phenols
KW - Pyrocarbon
KW - Sorbents
KW - Surface-layered adsorbents
KW - phenols
KW - multiwall carbon nanotubes
KW - adsorption
KW - sorbents
KW - aerosilogel
KW - SORBENTS
KW - alcohols
KW - air
KW - analysis
KW - surface-layered adsorbents
KW - pyrocarbon
UR - http://www.scopus.com/inward/record.url?scp=85105202220&partnerID=8YFLogxK
U2 - 10.3390/separations8040050
DO - 10.3390/separations8040050
M3 - Article
AN - SCOPUS:85105202220
VL - 8
JO - Separations
JF - Separations
SN - 2297-8739
IS - 4
M1 - 50
ER -
ID: 77772337