Activated carbon fbers (ACFs) were treated by electroless plating of CuO to improve their removal performance for volatile organic compounds (VOCs). The properties of these samples(CuO@ACFs) were evaluated by X-ray photoelectron spectros�copy (XPS), BET and N2O chemisorption to determine the area and dispersion of metallic CuO. The removal efciency for benzene was investigated by gas chromatography (GC). The breakthrough time of CuO@ACFs increased by approximately 120% compared to that of untreated ACFs at benzene of 100 ppm. CuO@ACFs removed 100% of the benzene in 20 h, indi�cating this material can be used as a removal technology for VOCs.
This is the result of checking the information with the same ISSN, publication year, volume, and start page between the WoS and the KCI journals. (as of 2022-07-22)
Total Citation Counts(KCI+WOS) 8
This is the number of times that the duplicate count has been removed by comparing the citation list of WoS and KCI.
[journal]
Pham TD
/ 2016
/ The advanced removal of benzene from aerosols by photocatalytic oxidation and adsorption of Cu–TiO2/PU under visible light irradiation
/ Appl Catal B
182
: 172~
[journal]
Khan A
/ 2019
/ The potential of biochar as sorptive media for removal of hazardous benzene in air
/ Chem Eng J
361
: 1576~
[journal]
Ceccaroli C
/ 2015
/ Molecular fingerprints of environmental carcinogens in human cancer
/ J Environ Sci Health C
33
: 188~
[journal]
Macias-Garcia A
/ 2017
/ Study of the adsorption and electroadsorption process of Cu(II)ions within thermally and chemically modified activated carbon
/ J Hazard Mater
328
: 46~
[journal]
Kazak O
/ 2017
/ Novel preparation of activated carbon by cold oxygen plasma treatment combined with pyrolysis
/ Chem Eng J
325
: 564~
[journal]
Jo H
/ 2017
/ Fluorination effect of activated carbons on performance of asymmetric capacitive deionization
/ Appl Surf Sci
409
: 117~
[journal]
Zhao X
/ 2018
/ Electroless decoration of cellulose paper with nickel nanoparticles : A hybrid carbon fiber for supercapacitors
/ Mater Chem Phys
215
: 157~
[journal]
Lee YJ
/ 2011
/ Morphologydependent antibacterial activities of Cu2O
/ Mater Lett
65
: 818~
[journal]
Lu CY
/ 2007
/ Simultaneous removal of VOC and NO by activated carbon impregnated with transition metal catalysts in combustion flue gas
/ Fuel Process Technol
88
: 557~
[journal]
Xu N
/ 2014
/ Benzene removal using non-thermal plasma with CuO/AC catalyst : reaction condition optimization and decomposition mechanism
/ Plasma Chem Plasma Process
34
: 1387~
[journal]
Takahashi A
/ 2002
/ New adsorbents for purification : selective removal of aromatics
/ AICHE J
48
: 1457~
[journal]
Lei B
/ 2020
/ CuOmodified activated carbon for the improvement of toluene removal in air
/ J Environ Sci
88
: 122~
[journal]
Ante B
/ 2006
/ Adsorption of benzene on copper, silver, and gold surfaces
/ J Chem Theory Comput
2
: 1093~
[journal]
Shin HN
/ 2008
/ VOC(Benzene)catalytic incineration using transition metal catalyst
/ Theories Appl Chem Eng
8
: 4397~
[journal]
Mohammadi L
/ 2017
/ Adsorptive removal of benzene and toluene from aqueous environments by cupric oxide nanoparticles : kinetics and isotherm studies
/ J Chem
2017
: 1~
@article{ART002695636}, author={Kim Min-Ji and Kim Kyung Hoon and Kim Yesol and Yoo Byungtae and Lee, Young-Seak}, title={Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts}, journal={Carbon Letters}, issn={1976-4251}, year={2020}, volume={30}, number={6}, pages={675-682}, doi={10.1007/s42823-020-00140-2}
TY - JOUR AU - Kim Min-Ji AU - Kim Kyung Hoon AU - Kim Yesol AU - Yoo Byungtae AU - Lee, Young-Seak TI - Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts JO - Carbon Letters PY - 2020 VL - 30 IS - 6 PB - Korean Carbon Society SP - 675 EP - 682 SN - 1976-4251 AB - Activated carbon fbers (ACFs) were treated by electroless plating of CuO to improve their removal performance for volatile organic compounds (VOCs). The properties of these samples(CuO@ACFs) were evaluated by X-ray photoelectron spectros�copy (XPS), BET and N2O chemisorption to determine the area and dispersion of metallic CuO. The removal efciency for benzene was investigated by gas chromatography (GC). The breakthrough time of CuO@ACFs increased by approximately 120% compared to that of untreated ACFs at benzene of 100 ppm. CuO@ACFs removed 100% of the benzene in 20 h, indi�cating this material can be used as a removal technology for VOCs. KW - Volatile organic compounds · Benzene · Removal · Electroless plating · Activated carbon fbers DO - 10.1007/s42823-020-00140-2 ER -
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae and Lee, Young-Seak. (2020). Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts. Carbon Letters, 30(6), 675-682.
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae and Lee, Young-Seak. 2020, "Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts", Carbon Letters, vol.30, no.6 pp.675-682. Available from: doi:10.1007/s42823-020-00140-2
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae, Lee, Young-Seak "Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts" Carbon Letters 30.6 pp.675-682 (2020) : 675.
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae, Lee, Young-Seak. Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts. 2020; 30(6), 675-682. Available from: doi:10.1007/s42823-020-00140-2
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae and Lee, Young-Seak. "Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts" Carbon Letters 30, no.6 (2020) : 675-682.doi: 10.1007/s42823-020-00140-2
Kim Min-Ji; Kim Kyung Hoon; Kim Yesol; Yoo Byungtae; Lee, Young-Seak. Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts. Carbon Letters, 30(6), 675-682. doi: 10.1007/s42823-020-00140-2
Kim Min-Ji; Kim Kyung Hoon; Kim Yesol; Yoo Byungtae; Lee, Young-Seak. Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts. Carbon Letters. 2020; 30(6) 675-682. doi: 10.1007/s42823-020-00140-2
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae, Lee, Young-Seak. Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts. 2020; 30(6), 675-682. Available from: doi:10.1007/s42823-020-00140-2
Kim Min-Ji, Kim Kyung Hoon, Kim Yesol, Yoo Byungtae and Lee, Young-Seak. "Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts" Carbon Letters 30, no.6 (2020) : 675-682.doi: 10.1007/s42823-020-00140-2