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Erschienen in:
Basic Properties of Wormlike Micelles Kapitel lesen Erstes Kapitel lesen

2015 | OriginalPaper | Buchkapitel

6. Other Types of Smart Wormlike Micelles

verfasst von : Yujun Feng, Zonglin Chu, Cécile A. Dreiss

Erschienen in: Smart Wormlike Micelles

Verlag: Springer Berlin Heidelberg

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Abstract

In comparison with the widely reported triggers described in previous chapters—namely temperature, pH, and light—this chapter discusses triggers which have been far less documented: redox potential and hydrocarbons and their use to control the assembly and properties of wormlike micelles. In addition, recent reports of multiple stimuli-responsive wormlike micelles are also described, as well as smart reverse wormlike micelles, to complete this collection of “unconventional” smart wormlike micelles.

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Vorheriges Kapitel CO2-Responsive Wormlike Micelles
Nächstes Kapitel Applications of Smart Wormlike Micelles
Literatur
1.
Saji T, Hoshino K, Aoyagui S (1985) Reversible formation and disruption of micelles by control of the redox state of the head group. J Am Chem Soc 107:6865–6868CrossRef
2.
Saji T, Hoshino K, Aoyagui S (1985) Reversible formation and disruption of micelles by control of the redox state of the surfactant tail group. J Chem Soc Chem Commun 13:865–866CrossRef
3.
Liu X, Abbott NL (2009) Spatial and temporal control of surfactant systems. J Colloid Interface Sci 339:1–18CrossRef
4.
Brown P, Butts CP, Eastoe J (2013) Stimuli-responsive surfactants. Soft Matter 9:2365–2374CrossRef
5.
Tsuchiya K, Orihara Y, Kondo Y, Yoshino N, Ohkubo T, Sakai H, Abe M (2004) Control of viscoelasticity using redox reaction. J Am Chem Soc 126:12282–12283CrossRef
6.
Aydogan N, Gallardo BS, Abbott NL (1999) A molecular-thermodynamic model for Gibbs monolayers formed from redox-active surfactants at the surfaces of aqueous solutions: redox-induced changes in surface tension. Langmuir 15:722–730CrossRef
7.
Aydogan N, Abbott NL (2001) Comparison of the surface activity and bulk aggregation of ferrocenyl surfactants with cationic and anionic headgroups. Langmuir 17:5703–5706CrossRef
8.
Sakai H, Imamura H, Kondo Y, Yoshino N, Abe M (2004) Reversible control of vesicle formation using electrochemical reaction. Colloid Surf A Physicochem Eng Asp 232:221–228CrossRef
9.
Tsuchiya K, Sakai H, Saji T, Abe M (2003) Electrochemical reaction in an aqueous solution of a ferrocene-modified cationic surfactant mixed with an anionic surfactant. Langmuir 19:9343–9350CrossRef
10.
Hoffmann H, Ebert G (1988) Surfactants, micelles and fascinating phenomena. Angew Chem Int Ed Engl 27:902–912CrossRef
11.
Hoffmann H, Ulbricht W (1987) The rheological behavior of different viscoelastic surfactant solutions. Tenside, Surfactants, Deterg 24:23–31
12.
Molchanov VS, Philippova OE, Khokhlov AR, Kovalev YA, Kuklin AI (2007) Self-assembled networks highly responsive to hydrocarbons. Langmuir 23:105–111CrossRef
13.
Philippova OE, Khokhlov AR (2010) Smart polymers for oil production. Petro Chem 50:266–270CrossRef
14.
Maitland GC (2000) Oil and gas production. Curr Opin Colloid Interface Sci 5:301–311CrossRef
15.
Chase B, Chmilowski W, Marcinew R, Mitchell C, Dang Y, Krauss D, Nelson E, Lantz T, Parham C, Plummer J (1997) Clear fracturing fluids for increased well productivity. Oilfield Rev 9:20–33
16.
Shibaev AV, Tamm MV, Molchanov VS, Rogachev AV, Kuklin AI, Dormidontova EE, Philippova OE (2014) How a viscoelastic solution of wormlike micelles transforms into a microemulsion upon absorption of hydrocarbon: new insight. Langmuir 30:3705–3714CrossRef
17.
Cohen Stuart MA, Huck WTS, Genzer J, Müller M, Ober C, Stamm M, Sukhorukov GB, Szleifer I, Tsukruk VV, Urban M, Winnik F, Zauscher S, Luzinov I, Minko S (2010) Emerging applications of stimuli-responsive polymer materials. Nat Mater 9:101–113CrossRef
18.
Schattling P, Jochum FD, Theato P (2014) Multi-stimuli responsive polymers—the all-in-one talents. Polym Chem 5:25–36CrossRef
19.
Li RR, Feng FL, Wang YS, Yang XY, Yang XL, Yang VC (2014) Folic acid-conjugated pH/temperature/redox multi-stimuli responsive polymer microspheres for delivery of anti-cancer drug. J Colloid Interface Sci 429:34–44CrossRef
20.
Zhuang JM, Gordon MR, Ventura J, Li LY, Thayumanavan S (2013) Multi-stimuli responsive macromolecules and their assemblies. Chem Soc Rev 42:7421–7435CrossRef
21.
Wang F, Klaikherd A, Thayumanavan S (2011) Temperature sensitivity trends and multi-stimuli sensitive behavior in amphiphilic oligomers. J Am Chem Soc 133:13496–13503CrossRef
22.
Klaikherd A, Nagamani C, Thayumanavan S (2009) Multi-stimuli sensitive amphiphilic block copolymer assemblies. J Am Chem Soc 131:4830–4838CrossRef
23.
Fameau A-L, Lam S, Velev OD (2013) Multi-stimuli responsive foams combining particles and self-assembling fatty acids. Chem Sci 4:3874–3881
24.
Yao RC, Qian JS, Li HZ, Yasin A, Xie YJ, Yang HY (2014) Synthesis and high-performance of a new sarcosinate anionic surfactant with a long unsaturated tail. RSC Adv 4:2865–2872
25.
Graf G, Drescher S, Meister A, Dobner B, Blume A (2011) Self-assembled bolaamphiphile fibers have intermediate properties between crystalline nanofibers and wormlike micelles: formation of viscoelastic hydrogels switchable by changes in pH and salinity. J Phys Chem B 115:10478–10487CrossRef
26.
Tung S-H, Huang Y-E, Raghavan SR (2007) Contrasting effects of temperature on the rheology of normal and reverse wormlike micelles. Langmuir 23:372–376CrossRef
27.
Jiang LX, Wang K, Ke FY, Liang DH, Huang JB (2009) Endowing catanionic surfactant vesicles with dual responsive abilities via a noncovalent strategy: introduction of a responser, sodium cholate. Soft Matter 5:599–606CrossRef
28.
Ketner AM, Kumar R, Davies TS, Elder PW, Raghavan SR (2007) A simple class of photorheological fluids: surfactant solutions with viscosity tunable by light. J Am Chem Soc 129:1553–1559CrossRef
29.
Davies TS, Ketner AM, Raghavan SR (2006) Self-assembly of surfactant vesicles that transform into viscoelastic wormlike micelles upon heating. J Am Chem Soc 128:6669–6675CrossRef
30.
Buwalda RT, Stuart MCA, Engberts JBFN (2000) Wormlike micellar and vesicular phases in aqueous solutions of single-tailed surfactants with aromatic counterions. Langmuir 16:6780–6786CrossRef
31.
Ganta S, Devalapally H, Shahiwala A, Amiji M (2008) A review of stimuli-responsive nanocarriers for drug and gene delivery. J Control Release 126:187–204CrossRef
32.
Mano JF (2008) Stimuli-responsive polymeric systems for biomedical applications. Adv Eng Mat 10:515–527CrossRef
33.
Zhang Y, Han Y, Chu Z, He S, Zhang J, Feng Y (2013) Thermally-induced structural transitions from fluids to hydrogels with pH-switchable anionic wormlike micelles. J Colloid Interface Sci 394:319–328CrossRef
34.
Yang Y, Dong J, Li X (2012) Micelle to vesicle transitions of N-dodecyl-1,ω-diaminoalkanes: effects of pH, temperature and salt. J Colloid Interface Sci 380:83–89CrossRef
35.
Palazzo G (2013) Wormlike reverse micelles. Soft Matter 9:10668–10677CrossRef
36.
Hashizaki K, Taguchi H, Saito Y (2009) A novel reverse worm-like micelle from a lecithin/sucrose fatty acid ester/oil system. Colloid Polym Sci 287:1099–1105CrossRef
37.
Kumar R, Ketner AM, Raghavan SR (2010) Nonaqueous photorheological fluids based on light-responsive reverse wormlike micelles. Langmuir 26:5405–5411CrossRef
38.
Lee HY, Diehn KK, Sun KS, Chen TH, Raghavan SR (2011) Reversible photorheological fluids based on spiropyran-doped reverse micelles. J Am Chem Soc 133:8461–8463CrossRef
Metadaten
Titel
Other Types of Smart Wormlike Micelles
verfasst von
Yujun Feng
Zonglin Chu
Cécile A. Dreiss
Copyright-Jahr
2015
Verlag
Springer Berlin Heidelberg
Buch
Smart Wormlike Micelles

Print ISBN: 978-3-662-45949-2

Electronic ISBN: 978-3-662-45950-8

Copyright-Jahr: 2015

DOI
https://doi.org/10.1007/978-3-662-45950-8_6

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