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Journal of Materials Science

Erschienen in:

01.07.2014

A new method for preparing hydrophilic-activated carbon through ester hydrolysis in an alkaline environment

verfasst von: Xiaolong Yao, Liqing Li, Hailong Li, Suoying He

Erschienen in: Journal of Materials Science | Ausgabe 14/2014

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Abstract

Hydrophilic-activated carbon was prepared by ester hydrolysis reactions, and was characterized by surface area analysis, Fourier transform infrared spectroscopy, scanning electron microscopy energy dispersive X-ray spectroscopy, and X-ray diffraction. Hydrophilic groups that were introduced on activated carbon surface through ethyl acetate hydrolysis in an alkaline environment were more efficient than those introduced with sodium acetate. During adsorption, the hydrophilic groups on modified activated carbon surface bound with water molecules through H-bonding and increased the adsorption capacity of water vapor. The adsorption isotherms of water vapor were well fitted by the Do model. Water molecules generated larger water clusters around the functional groups at 303 and 313 K. In addition, water desorption from the samples was analyzed by thermogravimetry. Water molecules that were hydrogen-bonded to functional groups exhibited higher thermal stability than those adsorbed in the micropore of activated carbon. Besides, the process of sodium acetate formation on the surface of modified activated carbon was discussed.

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Ribeiro AM, Sauer TP, Grande CA, Moreira RFPM, Loureiro JM, Rodrigues AE (2008) Adsorption equilibrium and kinetics of water vapor on different adsorbents. Ind Eng Chem Res 47:7019–7026CrossRef

Delage F, Pré P, Cloirec LP (1999) Effects of moisture on warming of activated carbon bed during VOC adsorption. J Environ Eng 125:1160–1167CrossRef

Müller EA, Hung FR (2000) Adsorption of water vapor-methane mixtures on activated carbons. Langmuir 16:5418–5424CrossRef

László K, Czakkel O, Demé B, Geissler E (2012) Simultaneous adsorption of toluene and water vapor on a high surface area carbon. Carbon 50:4155–4162CrossRef

Velásquez JJD, Suárez LMC, Figueiredo JL (2006) Oxidative dehydrogenation of isobutane over activated carbon catalysts. Appl Catal A 311:51–57CrossRef

Moreno-Castilla C, Maldonado-Hódar FJ, Carrasco-Marin F, Rodríguez-Castellon E (2002) Surface characteristics of titania/carbon composite aerogels. Langmuir 18:2295–2299CrossRef

Švábová M, Weishauptová Z, Přibyl O (2011) Water vapour adsorption on coal. Fuel 90:1892–1899CrossRef

Qiao WM, Korai Y, Mochida I, Hori Y, Maeda T (2002) Preparation of an activated carbon artifact: oxidative modification of coconut shell-based carbon to improve the strength. Carbon 40:351–358CrossRef

Domingo-Garcia M, López-Garzon FJ, Pérez-Mendoza M (2000) Effect of some oxidation treatments on the textural characteristics and surface chemical nature of an activated carbon. J Colloid Interface Sci 222:233–240CrossRef

10.

Tsunoda R, Ozawa T, Ando J (1998) Ozone treatment of coal- and coffee grounds-based active carbons: water vapor adsorption and surface fractal micropores. J Colloid Interface Sci 205:265–270CrossRef

11.

Chiang HL, Chiang PC, Huang CP (2002) Ozonation of activated carbon and its effects on the adsorption of VOCs exemplified by methylethyl ketone and benzene. Chemosphere 47:267–275CrossRef

12.

Juárez-Galán JM, Silvestre-Albero A, Silvestre-Albero J, Rodríguez-Reinoso F (2009) Synthesis of activated carbons with highly developed “mesoporosity. Micropor Mesopor Mat 117:519–521CrossRef

13.

Okada K, Nakanome M, Kameshima Y, Isobe T, Nakajima A (2010) Water vapor adsorption of CaCl₂-impregnated activated carbon. Mater Res Bull 45:1549–1553CrossRef

14.

Brunauer S, Emmett PH, Teller E (1938) Adsorption of gases in multimolecular layers. J Am Chem Soc 60:309–319CrossRef

15.

Zhu HY, Zhao XS, Lu GQ, Do DD (1996) Improved comparison plot method for pore structure characterization of MCM-41. Langmuir 12:6513–6517CrossRef

16.

Cheng LS, Yang RT (1994) Improved Horvath-Kawazoe equations including spherical pore models for calculating micropore size distribution. Chem Eng Sci 49:2599–2609CrossRef

17.

Pietrzak R, Wachowska H, Nowicki P (2006) Preparation of nitrogen-enriched activated carbons from brown coal. Energy Fuel 20:1275–1280CrossRef

18.

Perry RH, Green DW (1999) Perry’s chemical engineers’ handbook, 7th edn. McGraw-Hill, New York

19.

Tangsathitkulchai C, Ngernyen Y, Tangsathitkulchai M (2009) Surface modification and adsorption of eucalyptus wood-based activated carbons: effects of oxidation treatment, carbon porous structure and activation method. Korean J Chem Eng 26:1341–1352CrossRef

20.

Cañete SJP, Zhang ZZ, Kong LM, Schlegel VL, Plantz BA, Dowben PA, Lai RY (2011) Application of synchrotron FTIR microspectroscopy for determination of spatial distribution of methylene blue conjugated onto a SAM via “click” chemistry. Chem Commun 47:11918–11920CrossRef

21.

Li N, Zhu J, Zha QF (2012) Quantitative and qualitative analyses of oxygen-containing surface functional groups on activated carbon. Chem J Chin Univ 33:548–554

22.

Long C, Li Y, Yu WH, Li AM (2012) Adsorption characteristics of water vapor on the hypercrosslinked polymeric adsorbent. Chem Eng J 180:106–112CrossRef

23.

Horikawa T, Kitakaze Y, Sekida T, Hayashi J, Katoh M (2010) Characteristics and humidity control capacity of activated carbon from bamboo. Bioresour Technol 101:3964–3969CrossRef

24.

Klop EA, Schouten A, Sluis PVD, Spek AL (1984) Structure of calcium acetate monohydrate, Ca(C₂H₃O₂)₂·H₂O. Acta Crystallogr C 40:1122–1124

25.

Ohta N, Nishi Y, Morishita T, Tojo T, Inagaki M (2008) Water vapour adsorption of microporous carbon films prepared from fluorinated aromatic polyimides. Adsorpt Sci Technol 26:373–382CrossRef

26.

Brennan JK, Bandosz TJ, Thomson KT, Gubbins KE (2001) Water in porous carbons. Colloid Surf A 187–188:539–568CrossRef

27.

Do DD, Junpirom S, Do HD (2009) A new adsorption-desorption model for water adsorption in activated carbon. Carbon 47:1466–1473CrossRef

28.

Li X, Li Z (2012) Adsorption of water vapor onto and its electrothermal desorption from activated carbons with different electric conductivities. Sep Purif Technol 85:77–82CrossRef

29.

Bedia J, Rodríguez-Mirasol J, Cordero T (2007) Water vapour adsorption on lignin-based activated carbon. J Chem Technol Biotechnol 82:548–557CrossRef

30.

Potts JE, Amis ES (1949) The alkaline hydrolysis of ethyl acetate from the standpoint of ion-dipole theory. J Am Chem Soc 71:2112–2116CrossRef

31.

Fuchs R, Hagan CP, Rodewald RF (1974) Transition state enthalpies of transfer in aqueous dimethyl sulfoxide solutions. Alkaline hydrolysis of ethyl acetate. J Phys Chem 78:1509–1511CrossRef

32.

Young KH, Bullock SL, Melvin DM, Spruill CL (1979) Ethyl acetate as a substitute for diethyl ether in the formalin-ether sedimentation technique. J Clin Microbiol 10:852–853

33.

Van JH, Kamer H, Huinink B, Weyers HA (1949) Rapid method for the determination of fat in feces. J Biol Chem 31:347–355

Titel: A new method for preparing hydrophilic-activated carbon through ester hydrolysis in an alkaline environment
verfasst von: Xiaolong Yao
Liqing Li
Hailong Li
Suoying He
Publikationsdatum: 01.07.2014
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 14/2014
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-014-8180-9

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