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The Role of the Presence of Aliphatic Alcohols on the Formation of Wormlike Micelle of Anionic-Cationic Surfactants Mixture

Year 2022, Volume: 9 Issue: 1, 275 - 282, 28.02.2022
https://doi.org/10.18596/jotcsa.961212

Abstract

Thermodynamically controlled supramolecular gel or aggregate is commonly resulted from the formation of one-dimensional micelles through specific self-assembling of amphiphilic molecules. This phenomenon is commonly referred to as the formation of worm- or thread-like micelle which is still considered as quite complicated and obscure. This, in spite of the recent physical insight for interpreting this phenomenon, is referred to as the critical intermolecular forces (CIF) of which still needs further support. Therefore, attention by scientists in this field should be given in order to make this transition phenomenon clear. In this work, investigations concerning the effect of addition of aliphatic alcohols with different chain lengths of even carbon numbers (ethanol, 1-butanol, 1-hexanol, 1-octanol and 1-decanol), at different concentrations (0.002-0.040 M), and temperatures on the formation of wormlike micelle for the mixture of anionic sodium dodecylsulfate (SDS) and cationic cetyltrimethylammonium bromide (CTAB) surfactants were carried out. The formation of these one dimensional micelles were practically detected by following the sharp change of physical properties through the presence of a remarkable high viscosity peak. The results indicate there is no linear or systematic relationship between the effects of the presence of these alcohols with their chain lengths. It has been found that the presence of aliphatic alcohols causes a positive effect on the formation of one dimensional micelles. The ability of the transition from spherical to wormlike micelles increases with increasing their concentrations of alcohols except for that of 1-octanol. The obtained achievements were explained in terms of CIF theory which then offered a reasonable support to this theory. It was concluded that alcohols particularly ethanol and 1-octanol can be employed as adjustment reagents for controlling required viscosity of threadlike micelles.

Supporting Institution

University Of Mosul

References

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  • 2. Sar P, Ghosh A, Scarso A, Saha B. Surfactant for better tomorrow: applied aspect of surfactant aggregates from laboratory to industry. Res Chem Intermed. 2019 Dec;45(12):6021–41.
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  • 8. Wang Z, Li Y, Dong X-H, Yu X, Guo K, Su H, et al. Giant gemini surfactants based on polystyrene–hydrophilic polyhedral oligomeric silsesquioxane shape amphiphiles: sequential “click” chemistry and solution self-assembly. Chem Sci. 2013;4(3):1345.
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  • 10. Ziserman L, Abezgauz L, Ramon O, Raghavan SR, Danino D. Origins of the Viscosity Peak in Wormlike Micellar Solutions. 1. Mixed Catanionic Surfactants. A Cryo-Transmission Electron Microscopy Study. Langmuir. 2009 Sep 15;25(18):10483–9.
  • 11. Li J, Zhao M, Zheng L. Salt-induced wormlike micelles formed by N-alkyl-N-methylpyrrolidinium bromide in aqueous solution. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2012 Feb;396:16–21.
  • 12. Dan-Hua X, Jian-Xi Z, Lin L, Yi Y, Xi-Lian W, 1 福州大学化学化工学院, 胶体与界面化学研究所, 福州 350108;,1 Institute of Colloid and Interface Chemistry, College of Chemistry and Chemical Engineering, Fuzhou University, Fuzhou, Fujian, 350108, P. R. China;, et al. A Highly Viscoelastic Anionic Wormlike Micellar System. Acta Physico-Chimica Sinica. 2013;29(07):1534–40.
  • 13. Yu H, Xu Z, Wang D, Chen X, Zhang Z, Yin Q, et al. Intracellular pH-activated PEG-b-PDPA wormlike micelles for hydrophobic drug delivery. Polym Chem. 2013;4(19):5052.
  • 14. Khalil RA, Saadoon FA. Effect of presence of benzene ring in surfactant hydrophobic chain on the transformation towards one dimensional aggregate. Journal of Saudi Chemical Society. 2015 Jul;19(4):423–8.
  • 15. Khalil RA, Alsamarrai LH. The role of surfactants head group in the formation of self-assembled supramolecular aggregate. Arab J Phys Chem. 2015;2(1):7–13.
  • 16. Fieber W, Scheklaukov A, Kunz W, Pleines M, Benczédi D, Zemb T. Towards a general understanding of the effects of hydrophobic additives on the viscosity of surfactant solutions. Journal of Molecular Liquids. 2021 May;329:115523.
  • 17. Tan G, Zou W, Weaver M, Larson RG. Determining threadlike micelle lengths from rheometry. Journal of Rheology. 2021 Jan;65(1):59–71.
  • 18. Pandya N, Rajput G, Janni DS, Subramanyam G, Ray D, Aswal V, et al. SLES/CMEA mixed surfactant system: Effect of electrolyte on interfacial behavior and microstructures in aqueous media. Journal of Molecular Liquids. 2021 Mar;325:115096.
  • 19. Mehringer J, Hofmann E, Touraud D, Koltzenburg S, Kellermeier M, Kunz W. Salting-in and salting-out effects of short amphiphilic molecules: a balance between specific ion effects and hydrophobicity. Phys Chem Chem Phys. 2021;23(2):1381–91.
  • 20. Khalil RA, Alsamarrai LH. Study The Effect Of Ethanol On The Formation Of The Wormlike Micelles For A Mixture Of Ionic Surfactants. Ratio. 2015;10(90):4344–89.
  • 21. Shibaev AV, Aleshina AL, Arkharova NA, Orekhov AS, Kuklin AI, Philippova OE. Disruption of Cationic/Anionic Viscoelastic Surfactant Micellar Networks by Hydrocarbon as a Basis of Enhanced Fracturing Fluids Clean-Up. Nanomaterials. 2020 Nov 27;10(12):2353.
  • 22. Moitzi C, Freiberger N, Glatter O. Viscoelastic Wormlike Micellar Solutions Made from Nonionic Surfactants: Structural Investigations by SANS and DLS. J Phys Chem B. 2005 Aug 1;109(33):16161–8.
  • 23. Khalil R, Zarari A. Theoretical investigations for the behavior of hydrotropes in aqueous solution. JOTCSA. 2015;2(4):42–52.
Year 2022, Volume: 9 Issue: 1, 275 - 282, 28.02.2022
https://doi.org/10.18596/jotcsa.961212

Abstract

References

  • 1. Mondal MH, Roy A, Malik S, Ghosh A, Saha B. Review on chemically bonded geminis with cationic heads: second-generation interfactants. Res Chem Intermed. 2016 Mar;42(3):1913–28.
  • 2. Sar P, Ghosh A, Scarso A, Saha B. Surfactant for better tomorrow: applied aspect of surfactant aggregates from laboratory to industry. Res Chem Intermed. 2019 Dec;45(12):6021–41.
  • 3. Chowdhury S, Rakshit A, Acharjee A, Mahali K, Saha B. Surface phenomenon in micellar media: An excellent controlling factor for oxidation of fatty aldehyde in aqueous medium. Journal of Molecular Liquids. 2020 Jul;310:113224.
  • 4. Acharjee A, Rakshit A, Chowdhury S, Saha B. Micelle catalysed conversion of ‘on water’ reactions into ‘in water’ one. Journal of Molecular Liquids. 2021 Jan;321:114897.
  • 5. Khalil RA, Hammad FJ. Critical Intermolecular Forces: A New Physical Insight for the Formation of Wormlike Micelles. Journal of the Chemical Society of Pakistan. 2014;36(2):211–20.
  • 6. Rodriguez-Abreu C, Shrestha RG, Shrestha LK, Harush E, Regev O. Worm-Like Soft Nanostructures in Nonionic Systems: Principles, Properties and Application as Templates. j nanosci nanotech. 2013 Jul 1;13(7):4497–520.
  • 7. Parker A, Fieber W. Viscoelasticity of anionic wormlike micelles: effects of ionic strength and small hydrophobic molecules. Soft Matter. 2013;9(4):1203–13.
  • 8. Wang Z, Li Y, Dong X-H, Yu X, Guo K, Su H, et al. Giant gemini surfactants based on polystyrene–hydrophilic polyhedral oligomeric silsesquioxane shape amphiphiles: sequential “click” chemistry and solution self-assembly. Chem Sci. 2013;4(3):1345.
  • 9. Dreiss CA. Wormlike micelles: where do we stand? Recent developments, linear rheology and scattering techniques. Soft Matter. 2007;3(8):956.
  • 10. Ziserman L, Abezgauz L, Ramon O, Raghavan SR, Danino D. Origins of the Viscosity Peak in Wormlike Micellar Solutions. 1. Mixed Catanionic Surfactants. A Cryo-Transmission Electron Microscopy Study. Langmuir. 2009 Sep 15;25(18):10483–9.
  • 11. Li J, Zhao M, Zheng L. Salt-induced wormlike micelles formed by N-alkyl-N-methylpyrrolidinium bromide in aqueous solution. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2012 Feb;396:16–21.
  • 12. Dan-Hua X, Jian-Xi Z, Lin L, Yi Y, Xi-Lian W, 1 福州大学化学化工学院, 胶体与界面化学研究所, 福州 350108;,1 Institute of Colloid and Interface Chemistry, College of Chemistry and Chemical Engineering, Fuzhou University, Fuzhou, Fujian, 350108, P. R. China;, et al. A Highly Viscoelastic Anionic Wormlike Micellar System. Acta Physico-Chimica Sinica. 2013;29(07):1534–40.
  • 13. Yu H, Xu Z, Wang D, Chen X, Zhang Z, Yin Q, et al. Intracellular pH-activated PEG-b-PDPA wormlike micelles for hydrophobic drug delivery. Polym Chem. 2013;4(19):5052.
  • 14. Khalil RA, Saadoon FA. Effect of presence of benzene ring in surfactant hydrophobic chain on the transformation towards one dimensional aggregate. Journal of Saudi Chemical Society. 2015 Jul;19(4):423–8.
  • 15. Khalil RA, Alsamarrai LH. The role of surfactants head group in the formation of self-assembled supramolecular aggregate. Arab J Phys Chem. 2015;2(1):7–13.
  • 16. Fieber W, Scheklaukov A, Kunz W, Pleines M, Benczédi D, Zemb T. Towards a general understanding of the effects of hydrophobic additives on the viscosity of surfactant solutions. Journal of Molecular Liquids. 2021 May;329:115523.
  • 17. Tan G, Zou W, Weaver M, Larson RG. Determining threadlike micelle lengths from rheometry. Journal of Rheology. 2021 Jan;65(1):59–71.
  • 18. Pandya N, Rajput G, Janni DS, Subramanyam G, Ray D, Aswal V, et al. SLES/CMEA mixed surfactant system: Effect of electrolyte on interfacial behavior and microstructures in aqueous media. Journal of Molecular Liquids. 2021 Mar;325:115096.
  • 19. Mehringer J, Hofmann E, Touraud D, Koltzenburg S, Kellermeier M, Kunz W. Salting-in and salting-out effects of short amphiphilic molecules: a balance between specific ion effects and hydrophobicity. Phys Chem Chem Phys. 2021;23(2):1381–91.
  • 20. Khalil RA, Alsamarrai LH. Study The Effect Of Ethanol On The Formation Of The Wormlike Micelles For A Mixture Of Ionic Surfactants. Ratio. 2015;10(90):4344–89.
  • 21. Shibaev AV, Aleshina AL, Arkharova NA, Orekhov AS, Kuklin AI, Philippova OE. Disruption of Cationic/Anionic Viscoelastic Surfactant Micellar Networks by Hydrocarbon as a Basis of Enhanced Fracturing Fluids Clean-Up. Nanomaterials. 2020 Nov 27;10(12):2353.
  • 22. Moitzi C, Freiberger N, Glatter O. Viscoelastic Wormlike Micellar Solutions Made from Nonionic Surfactants: Structural Investigations by SANS and DLS. J Phys Chem B. 2005 Aug 1;109(33):16161–8.
  • 23. Khalil R, Zarari A. Theoretical investigations for the behavior of hydrotropes in aqueous solution. JOTCSA. 2015;2(4):42–52.
There are 23 citations in total.

Details

Primary Language English
Subjects Physical Chemistry
Journal Section Articles
Authors

Rabah Khalil 0000-0002-5252-3335

Liqaa Alsamarrai This is me 0000-0002-9460-829X

Publication Date February 28, 2022
Submission Date July 2, 2021
Acceptance Date January 19, 2022
Published in Issue Year 2022 Volume: 9 Issue: 1

Cite

Vancouver Khalil R, Alsamarrai L. The Role of the Presence of Aliphatic Alcohols on the Formation of Wormlike Micelle of Anionic-Cationic Surfactants Mixture. JOTCSA. 2022;9(1):275-82.