Journals A-Z
All Subjects
Free Journals
sciepub.com
American Journal of Materials Science and Engineering
ISSN (Print): 2333-4665 ISSN (Online): 2333-4673 Website: https://www.sciepub.com/journal/ajmse Editor-in-chief: Dr. SRINIVASA VENKATESHAPPA CHIKKOL
Open Access
Journal Browser
Go
Issue 1, Volume 2
Article Metrics
  • 40118
    Views
  • 36260
    Saves
  • 0
    Citations
  • 35
    Likes
Export Article
American Journal of Materials Science and Engineering. 2014, 2(1), 1-6
DOI: 10.12691/ajmse-2-1-1
Open AccessArticle

Influence of Hydrocarbon Radicals on the Structure of Layered Double Hydroxides

Butenko E.1, , Malyshev A.2 and Kapustin A.1

1Azov Sea State Technical University, Mariupol, Ukraine

2SASOL Germany GmbH

Pub. Date: February 17, 2014
View Full Text Full Text PDF (459 KB) Full Text ePUB(352 KB)

Cite this paper:
Butenko E., Malyshev A. and Kapustin A.. Influence of Hydrocarbon Radicals on the Structure of Layered Double Hydroxides. American Journal of Materials Science and Engineering. 2014; 2(1):1-6. doi: 10.12691/ajmse-2-1-1

Abstract

Mg-Al-LDHs with different Mg/Al mol ratio were studied. Adsorption of different organic substances on the layered double hydroxides (LDHs) of different composition was studied. Fatty alcohols, phenols and naphthalene derivatives were used as a sorbates. The structure changes, taking place because of this process, was explored by X-ray method. It has been found, that at the adsorption of such substances as alcohol and phenols the anion exchange take place. After the sorption the specific surface and inner distance of LDHs were measured. The mechanism of structure change was proposed.

Keywords:
layered double hydroxides sorption structure

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

Figures

Figure of 9

References:

[1]  Kapustin A. (1991) Inorganic anion exchangers. Russ. Chem. Rev., 1398-1416.
 
[2]  Rives V. (2001) Layered Double Hydroxides: Present and Future. Nova Science Publishers, New York.
 
[3]  Leroux F., Taviot-Gueho C. (2005) Fine tuning between organic and inorganic host structure: new trends in layered double hydroxide hybride assemblies. Journal of Materials Chemistry, 3628-3642.
 
[4]  Wong F., Buchheit R.G. (2004) Utilizing the structural effect of layered double hydroxides for sensing water uptake in organic coatings. Progress in Organic Coatings, 91-102.
 
[5]  Miyata S., Hirose T. (1978) Adsorption of N2, O2, CO2 and H2 on hydrotalcite-like system: Mg2+-Al3+-(Fe(CN)6)4-. Clays Clay Mineral, 441-447.
 
[6]  Reichle W.T. (1985) Journal of Catalysis 94 (1985) 547.
 
[7]  M.R. Kang, H.M. Lim, S.C. Lee. Layered double hydroxide and its anion exchange capacity. “Advances in Technology of Materials and Materials Processing”, 2004, V. 6, N 2, p. 218-223.
 
[8]  Miyata S., Kumura T. Synthesis of new hydrotalcite-like compounds and their physico-chemical properties. Chem. Lett. 1973, N 8, p. 843-848.
 
[9]  A.E. Kapustin, S.B. Milko. Are the galleries of pyroaurite “open” or “closed”. Bulgarian Chemical Communications, 1995, V. 28, N 1, p. 147-149.
 
[10]  Е.В. Капустина, А.Е. Капустин. Сорбция спиртов пироауритом. Украинский химический журнал, 1990, т. 56, № 11, с. 1164-1166.
 
[11]  F. Figueras. Base catalysis in the synthesis of fine chemicals. Topics in Catalysis, 2004, V. 29, N 3-4, p. 189-196.
 
[12]  H.C. Greenwell, P.J. Holliman, W. Jones. Studies of the effects of synthetic procedure on base catalysis using hydroxide-intercalated layered double hydroxides. Catalysis Today, 2006, V. 114, p. 397-402.
 
[13]  D. Kim, C. Huang, H. Lee. Hydrotalcite-type catalysts for narrow-range oxyethylation of 1-dodecanol using ethylene oxide. Applied Catalysis A, 2003, V. 249, N 2, p. 229-240.
 
[14]  U. Costantino, M. Curini, F. Montanari. Hydrotalcite-like compounds as heterogeneous catalysts in liquid phase organic synthesis. Microporous and Mesoporous Materials, 2008, V. 107, N 1, p. 16-22.
 
[15]  A.E. Kapustin, V.F. Shvets, M.G. Makarov. Application of inorganic anionites for oxyalkylation of alcohols. Reaction Kinetic Catalysis Letters, 1991, V. 43, N 1, p. 115-116.
 
[16]  D. Tichit, B. Coq. Catalysis by hydrotalcites and related materials. Cattech., 2003, V. 7, N 6, p. 206-217.
 
[17]  V. Rives, Layered double hydroxides: Present and Future, Nova Sci. Pub. Inc., New York, 2001.
 
[18]  Капустин А.Е., Грекова Н.Н., Лебедева О.В. Проблемы индикаторного титрования основных гетерогенных катализаторов"Катализ и нефтехимия", 1996, N 2, с. 76-79.
 
[19]  А.Е. Капустин. Использование глин при получении неионогенных поверхностно-активных веществ. Химическая промышленность, 1990, т. 317, № 5, с.61-61.
 
[20]  А.Е. Капустин, М.Г. Макаров, С.Б. Милько. Оксиэтилирование спиртов при катализе слоистыми двойными гидроксидами. Кинетика и катализ, 1995, т. 36, № 6, с. 869-871.
 
[21]  Kopka H., Beneke K., Lagaly G. Anion surfactants between double metal hydroxide layeres. J. Colloid. And Interface Sci., 1988, V. 123, N 2, p. 427-436.
 
[22]  N. Muksing, R. Magaraphan, S. Coiai, E. Passaglia Effect of surfactant alkyl chain length on the dispersion, and thermal and dynamic mechanical properties of LDPE/organo-LDH composites. eXPRESS Polymer Letters Vol.5, No.5 (2011) 428-448.
 
[23]  Kevin J. Martin, T. J. Pinnavaia. Layered double hydroxides as supported anionic reagents. J. Am. Chem. Soc., 1986, 108 (3), pp 541-542.
 
Manuscript template