Volatile organic compounds (VOCs) removal using ACFs with electroless plating CuO as catalysts

Kim Min-Ji; Kim Kyung Hoon; Kim Yesol; Yoo Byungtae; Lee， Young-Seak

Carbon Letters

Abbr : Carbon Lett.
2020, 30(6), pp.675-682
Publisher : Korean Carbon Society
Research Area : Other Natural Sciences General

Kim Min-Ji ¹, Kim Kyung Hoon ², Kim Yesol ³, Yoo Byungtae ⁴, Lee， Young-Seak ⁵

¹충남대학교
²충남대학교
³충남대학교
⁴화학물질안전원
⁵충남대학교

ABSTRACT

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.
KEYWORDS

Volatile organic compounds · Benzene · Removal · Electroless plating · Activated carbon fbers
REFERENCES (29)

[journal] 김진형 / 2014 / Development of Hazardous Work Mapping Methodology Based on Layout of Workplace Handling The Accident Preparedness Substances / Korean Chemical Engineering Research(HWAHAK KONGHAK) / 한국화학공학회 52(6) : 736~742

[journal] 김진형 / 2017 / Comparison Study for Impact Range of Prediction Models Through Case Study about Gumi Hydrogen Fluoride Accident / Korean Chemical Engineering Research(HWAHAK KONGHAK) / 한국화학공학회 55(1) : 48~53

[journal] 신도연 / 2014 / The Current Status of Strong Acids Production, Consumption, and Spill Cases in Korea / 지하수토양환경 / 한국지하수토양환경학회 19(6) : 6~12

[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] 감상규 / 2018 / Adsorption Characteristics of Acetone, Benzene, and Metylmercaptan in the Fixed Bed Reactor Packed with Activated Carbon Prepared from Waste Citrus Peel / 공업화학 / 한국공업화학회 29(1) : 28~36

[journal] 감상규 / 2017 / Characteristics of Activated Carbon Prepared from Waste Citrus Peel by KOH Activation / 공업화학 / 한국공업화학회 28(6) : 649~654

[journal] 김민지 / 2015 / Adsorption Characteristics of Toluene Gas Using Fluorinated Phenol-based Activated Carbons / 공업화학 / 한국공업화학회 26(5) : 587~592

[journal] 김민지 / 2015 / Effects of the Fluorination of Activated Carbons on the Chromium Ion Adsorption / 공업화학 / 한국공업화학회 26(1) : 92~98 / http://dx.doi.org/10.14478/ace.2014.1126

[journal] 김민지 / 2015 / Adsorption Characteristics of Chromium Ion at Low Concentration Using Oxyfluorinated Activated Carbon Fibers / 공업화학 / 한국공업화학회 26(4) : 432~438

[journal] 강다희 / 2018 / Influence of the Micropore Structures of PAN-based Activated Carbon Fibers on Nerve Agent Simulant Gas (DMMP) Sensing Property / 공업화학 / 한국공업화학회 29(2) : 191~195

[journal] 임형순 / 2018 / Effect of Oxyfluorination of Activated Carbon Fibers on Adsorption of Benzene Gas Causing Sick House Syndrome / 공업화학 / 한국공업화학회 29(3) : 312~317

[journal] 김민지 / 2018 / Effect of CuO introduced on activated carbon fibers formed by electroless plating on the NO gas sensing / Journal of Industrial and Engineering Chemistry / 한국공업화학회 60 : 341~347

[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] 이경민 / 2017 / The electrical and heating properties of copper-incorporated graphite fibers fabricated using different ultrasonication techniques / Carbon Letters / 한국탄소학회 24(1) : 111~114

[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] 이경민 / 2017 / Thermal Heating Characteristics of Electroless Cu-Plated Graphite Fibers / Korean Chemical Engineering Research(HWAHAK KONGHAK) / 한국화학공학회 55(2) : 264~269

[journal] 김지헌 / 2011 / Study on the Toluene Removal using Copper Oxide Impregnated Volcanic Ash / 한국생활환경학회지 / 한국생활환경학회 18(6) : 684~689

[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~
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