Startseite Properties of Binary Mixture of Cetyl Diphenyl Ether Disulfonate and Linear Alkylbenzene Sulfonate
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Properties of Binary Mixture of Cetyl Diphenyl Ether Disulfonate and Linear Alkylbenzene Sulfonate

  • Xiaopeng Wang , Xiaochen Liu , Yueqing Huo und Jinping Niu
Veröffentlicht/Copyright: 18. Juni 2020
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Tenside Surfactants Detergents
Aus der Zeitschrift Tenside Surfactants Detergents Band 57 Heft 3

Abstract

The surface properties of the binary mixture of cetyl diphenyl ether disulfonate (C16-MADS) and linear alkylbenzene sulfonate (LAS) have been investigated by salinity and hardness tolerance, equilibrium surface tension, wettability, foam and emulsification measurements. The results show that with increasing mass ratio of LAS in the C16-MADS/LAS mixed system, the ability to reduce the surface tension of the solution is improved. The wetting performance is also improved. The critical micelle concentration (CMC) values are increased first, then decreased, and are higher than the ideal CMC values, which indicates that there is an antagonistic effect that is not conducive to the formation of mixed micelles between C16-MADS and LAS. In addition, the C16-MADS/LAS system improves the hard water resistance of LAS and reduces the foam properties of LAS.

Kurzfassung

Die Oberflächeneigenschaften des binären Mischsystems aus Cetyldiphenyletherdisulfonat (C16-MADS) und linearem Alkylbenzensulfonat (LAS) wurden durch Messungen des Salzgehalts, der Härtetoleranz, der Gleichgewichtsoberflächenspannung, der Benetzbarkeit und des Schaum- und Emulgierungvermögens untersucht. Die Ergebnisse zeigen, dass mit zunehmendem Massenverhältnis von LAS im C16-MADS/LAS-Mischsystem sich die Oberflächenspannung der Lösung verringert sowie die Benetzungsleistung verbessert. Die Werte für die kritische Mizellenbildungskonzentration (CMC) nehmen zuerst zu, dann ab, liegen aber über den idealen CMC-Werten. Das weist auf einen antagonistischen Effekt hin, der die Bildung von Mischmizellen zwischen C16-MADS und LAS nicht fördert. Darüber hinaus verbessert das C16-MADS/LAS-Mischsystem die Hartwasserwiderstand von LAS und verringert die Schaumeigenschaften von LAS.

Key words: Cetyl diphenyl ether disulfonate; linear alkylbenzene sulfonate; surface properties; binary mixture; adsorption behavior
Stichwörter: Cetyldiphenyletherdisulfonat; lineares Alkylbenzensulfonat; Oberflächeneigenschaften; binäre Mischung; Adsorptionsverhalten
Correspondence address, Prof. Dr. Jinping Niu, China Research Institute of Daily Chemical Industry, No. 34 Wenyuan Road, Taiyuan 030001, Shanxi, People's Republic of China, Email: , Tel.: 00-86-3-51-4-19-28-78, Fax: 00-86-3-51-4-04-08-02

Xiaopeng Wang: postgraduate student. Address: China Research Institute of Daily Chemical Industry, 34 Wenyuan Street, Taiyuan, Shanxi Province, 030001 P.-R. China.

Xiaochen Liu: Ph.-D. graduate in physical chemistry. Work address: China Research Institute of Daily Chemical Industry, 34 Wenyuan Street, Taiyuan, Shanxi Province, 030001 P.-R. China.

Yueqing Huo: postgraduate student. Address: China Research Institute of Daily Chemical Industry, 34 Wenyuan Street, Taiyuan, Shanxi Province, 030001 P.-R. China.

Jinping Niu: professor, corresponding author. Address: China Research Institute of Daily Chemical Industry, 34 Wenyuan Street, Taiyuan, Shanxi Province, 030001 P.-R. China. Tel.: 00-86-3-51-4-19-28-78; E-mail: .

References

1 T. A. Wagay : Micellization and Surface Properties of Alkanediyl-1,4-bis (tetradecyldimethylammonium Bromide) Gemini Surfactants with Dodecylethyldimethylammonium Bromide, Journal of Dispersion Science & Technology. 36 (2015) 11471155. 10.1080/01932691.2014.958851Suche in Google Scholar

2 A. Maneedaeng , K. J.Haller, B. P.Grady and A. E.Flood: Thermodynamic parameters and counterion binding to the micelle in binary anionic surfactant systems, Journal of Colloid & Interface Science. 356 (2011) 598604. 21292278 10.1016/j.jcis.2011.01.008Suche in Google Scholar PubMed

3 P. Parekh , D.Varade, J.Parikh and P.Bahadur: Anionic–cationic mixed surfactant systems: Micellar interaction of sodium dodecyl trioxyethylene sulfate with cationic gemini surfactants, Colloids & Surfaces A Physicochemical & Engineering Aspects. 385 (2011) 111120. 10.1016/j.colsurfa.2011.05.057Suche in Google Scholar

4 S. Beheshteh , G.Hussein, T.Behnoosh, J.Soheila and H.Majid: Molecular interactions of cationic and anionic surfactants in mixed monolayers and aggregates, Journal of Physical Chemistry B, 112 (2008) 14869. 18956836 10.1021/jp803105nSuche in Google Scholar PubMed

5 M. S. Bakshi and K.Singh: Synergistic interactions in the mixed micelles of cationic gemini with zwitterionic surfactants: Fluorescence and Krafft temperature studies, Journal of Colloid & Interface Science. 287 (2005) 288297. 15914176 10.1016/j.jcis.2005.01.099Suche in Google Scholar PubMed

6 L. Liu and M. J.Rosen: The Interaction of Some Novel Diquaternary Gemini Surfactants with Anionic Surfactants, Journal of Colloid & Interface Science. 179 (1996) 454459. 10.1006/jcis.1996.0237Suche in Google Scholar

7 S. Bharadwaj and J. C.Ahluwalia: Mixed-surfactant system of dodecylbenzene sulfonate and alpha-olefin sulfonate: Micellar and volumetric studies, Journal of the American Oil Chemists' Society. 73 (1996) 3945. 10.1007/BF02523446Suche in Google Scholar

8 K. L. Matheson , M. F.Cox and D. L.Smith: Interactions between linear alkylbenzene sulfonates and water hardness ions. I. Effect of calcium ion on surfactant solubility and implications for detergency performance, J. Am. Oil Chem. Soc.62 (1985) 13911396. 10.1007/BF02545966Suche in Google Scholar

9 S. E. Anachkov , S.Tcholakova, D. T.Dimitrova, N. D.Denkov, N.Subrahmaniam and P.Bhunia: Adsorption of linear alkyl benzene sulfonates on oil–water interface: Effects of Na+, Mg2+ and Ca2+ ions, Colloid. Surface. A Physicochemical & Engineering Aspects. 466 (2015) 1827. 10.1016/j.colsurfa.2014.10.050Suche in Google Scholar

10 H. Xu and D.Chen: Synthesis and Surface Active Properties of a Novel Linear Dodecyl Diphenyl Ether Sulfonate Gemini Surfactant, J. Surfactants Deterg. 15 (2012) 703707. 10.1007/s11743-012-1349-9Suche in Google Scholar

11 D. L. Smith , K. L.Matheson and M. F.Cox: Interactions between linear alkylbenzene sulfonates and water hardness ions. III. Solubilization and performance characteristics of Ca(LAS)2, J. Am. Oil Chem. Soc.62 (1985) 13991402. 10.1007/BF02545968Suche in Google Scholar

12 H. Xu , K.Xu and D.Wang: Surface Chemical Properties and Micellization of Disodium Hexadecyl Diphenyl Ether Disulfonate in Aqueous Solution, Journal of Surfactants & Detergents. 18 (2015) 10731080. 10.1007/s11743-015-1741-3Suche in Google Scholar

13 M. J. Rosen , Z. H.Zhu and X. Y.Hua: Relationship of structure to properties of surfactants. 16. Linear decyldiphenylether sulfonates, Journal of the American Oil Chemists Society. 69 (1992) 3033. 10.1007/bf02635872Suche in Google Scholar

14 K. L. Matheson , M. F.Cox and D. L.Smith: Interactions between linear alkylbenzene sulfonates and water hardness ions. I. Effect of calcium ion on surfactant solubility and implications for detergency performance, Journal of the American Oil Chemists' Society. 62 (1985) 13911396. 10.1007/BF02545966Suche in Google Scholar

15 T. N. Ishii and K.Sasaki: Alkyldiphenyl ether disufonic acid disodium salts as dispersing agents for wettable pesticides, (1987). JP Patent 6299356.Suche in Google Scholar

16 X. Li , H.Xu and Z.Ding: Study on a Ternary Surfactant System of Disodium Hexadecyl Diphenyl Ether Disulfonate, Dodecyldimethyl Hydroxyethyl Ammonium Chloride and Fatty Alcohol Polyoxyethylene Ether, Tenside Surfactants Detergents. 55 (2018) 116120. 10.3139/113.110554Suche in Google Scholar

17 V. I. Ivanova , R. D.Stanimirova, K. D.Danov, P. A.Kralchevsky and J. T.Petkov: Sulfonated methyl esters, linear alkylbenzene sulfonates and their mixed solutions: Micellization and effect of Ca2+ ions, Colloid. Surface. A Physicochemical & Engineering Aspects. 2016. 10.1016/j.colsurfa.2016.06.039Suche in Google Scholar

18 N. J. Turro , P. L.Kuo, P.Somasundaran and K.Wong: Surface and bulk interactions of ionic and nonionic surfactants, J. Phys. Chem. 90 (1986) 288291. 10.1021/j100274a017Suche in Google Scholar

19 X. Li , H.Xu and Z.Ding: Study on a Ternary Surfactant System of Disodium Hexadecyl Diphenyl Ether Disulfonate, Dodecyldimethyl Hydroxyethyl Ammonium Chloride and Fatty Alcohol Polyoxyethylene Ether, Tenside Surfactants Detergents. 55 (2018) 116120. 10.3139/113.110554Suche in Google Scholar

20 B. Dawe and T.Oswald: Reduced Adsorption And Separation Of Blended Surfactants On Sand And Clay, J. Can. Petrol. Technol. 30 (1991) 133137. 10.2118/91-02-11Suche in Google Scholar

21 G. D. Yadav and S. B.Kamble: Friedel–Crafts green alkylation of xylenes withtert-butanol over mesoporous superacid UDCaT-5, Chem. Eng. Res. Des.90(2012) 1322. 10.1016/j.cherd.2011.12.005Suche in Google Scholar

22 J. W. Vanderhoff , V. L.Dimonie, M. S.El-Aasser and L. A.Settlemeyer: Evaluation of alkylated diphenyl ether disulfonate surfactants in 60-:-40 styrene-butadiene emulsion copolymerization, J. Appl. Polym. Sci. 41 (2010) 15491568. 10.1002/app.1990.070410716Suche in Google Scholar

23 T. Jiao , X.Liu and J.Niu: Effects of sodium chloride on adsorption at different interfaces and aggregation behaviors of disulfonate gemini surfactants, Rsc Adv.6 (2016) 1388113889. 10.1039/C5RA25727ASuche in Google Scholar

24 T. Jiao , X.Liu, X.Wang and J.Niu: Sulfated Zirconium Catalyst for Synthesis of Dialkylated Diphenylether Disulfonate Gemini Surfactants, J. Surfactants Deterg.18 (2015) 10671072. 10.1007/s11743-015-1728-0Suche in Google Scholar

25 L. Bai , X.Liu, T.Jiao, Y.Wang, Y.Huo and J.Niu: Surface properties and thermodynamic properties of micellization of mono- and di-tetrapropylene diphenyl ether disulfonates, J. Mol. Liq. 12 (2017) 244. 10.1016/j.molliq.2017.09.033Suche in Google Scholar

26 J. H. Clint : Micellization of mixed nonionic surface active agents, Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases. 71(1975) 1327. 10.1039/f19757101327Suche in Google Scholar

27 Y. Wang , X.Liu, L.Bai and J.Niu: Influence of alkyl chain length of alpha olefin sulfonates on surface and interfacial properties, J. Disper. Sci. Technol. 1 (2017)17641769. 10.1080/01932691.2017.1281144Suche in Google Scholar

28 X. Liu , Y.Zhao, Q.Li, T.Jiao and J.Niu: Surface and interfacial tension of nonylphenol polyethylene oxides sulfonate, J. Mol. Liq.216 (2016) 185191. 10.1016/j.molliq.2016.01.009Suche in Google Scholar

29 M. J. Rosen , Z. H.Zhu and T.Gao: Synergism in Binary Mixture of Surfactants: 11. Mixtures Containing Mono- and Disulfonated Alkyl- and Dialkyldiphenylethers, J. Colloid Interface Sci.133 (1993) 473478. 10.1016/S0021-9797(89)80058-XSuche in Google Scholar

30 P. Szumała and A.Mówińska: Perfectly Wetting Mixtures of Surfactants from Renewable Resources: The Interaction and Synergistic Effects on Adsorption and Micellization, J. Surfactants Deterg. 19 (2016) 437445. 27182191 10.1007/s11743-016-1793-zSuche in Google Scholar PubMed PubMed Central

Received: 2018-07-20
Accepted: 2019-01-04
Published Online: 2020-06-18
Published in Print: 2020-05-15

© 2020, Carl Hanser Publisher, Munich

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Review Article
  4. Aggregation Behavior and Thermodynamic Studies of Hydrotropes: A Review
  5. Detergent Ingredient
  6. Synthesis of Type A Zeolite from Rice Husk Ash and Its Application as a Builder on Effervescent Tablet Form Detergent
  7. Study on Lipase-Catalyzed Hydrolysis of Olive Oil at Oil-Water Interface
  8. Washing Performance of Detergent Formulations with Sodium Oxalate as Builder in Presence of Different Enzymes
  9. Application
  10. Study on the Oxidation Products of Hemp Seed Oil and its Application in Cosmetics
  11. Performance Study of Narrow-distribution Aliphatic Alcohol Polyoxyethylene Ether Phosphates with Large EO Addition Number
  12. Novel Surfactants
  13. Synthesis, Characteristics and Application of Novel Non-Ionic Gemini Surfactants as Reverse Micellar Systems for Encapsulation of Some Aromatic α-Amino Acids in n-Hexane
  14. Physical Chemistry
  15. Self-Assembly, Interfacial, and Thermodynamic Properties of Antipsychotic Drug with Bile Salt in Water/Salt Solutions
  16. Properties of Binary Mixture of Cetyl Diphenyl Ether Disulfonate and Linear Alkylbenzene Sulfonate
  17. Synthesis
  18. Microwave Assisted Synthesis of Cationic Amino Sugar Surfactants
https://doi.org/10.3139/113.110677
Schlagwörter für diesen Artikel
Cetyl diphenyl ether disulfonate; linear alkylbenzene sulfonate; surface properties; binary mixture; adsorption behavior

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Review Article
  4. Aggregation Behavior and Thermodynamic Studies of Hydrotropes: A Review
  5. Detergent Ingredient
  6. Synthesis of Type A Zeolite from Rice Husk Ash and Its Application as a Builder on Effervescent Tablet Form Detergent
  7. Study on Lipase-Catalyzed Hydrolysis of Olive Oil at Oil-Water Interface
  8. Washing Performance of Detergent Formulations with Sodium Oxalate as Builder in Presence of Different Enzymes
  9. Application
  10. Study on the Oxidation Products of Hemp Seed Oil and its Application in Cosmetics
  11. Performance Study of Narrow-distribution Aliphatic Alcohol Polyoxyethylene Ether Phosphates with Large EO Addition Number
  12. Novel Surfactants
  13. Synthesis, Characteristics and Application of Novel Non-Ionic Gemini Surfactants as Reverse Micellar Systems for Encapsulation of Some Aromatic α-Amino Acids in n-Hexane
  14. Physical Chemistry
  15. Self-Assembly, Interfacial, and Thermodynamic Properties of Antipsychotic Drug with Bile Salt in Water/Salt Solutions
  16. Properties of Binary Mixture of Cetyl Diphenyl Ether Disulfonate and Linear Alkylbenzene Sulfonate
  17. Synthesis
  18. Microwave Assisted Synthesis of Cationic Amino Sugar Surfactants
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