Magnetically tunable viscoelastic response of soft magnetic nanocomposites with wormlike surfactant micellar matrix

Молчанов, В.С.; Klepikov, I.A.; Razumovskaya, I. V.; Philippova, Olga E.

doi:10.17586/2220-8054-2018-9-3-335-341

Cited by 6 publications

(7 citation statements)

References 26 publications

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“…Very small nanoparticles around 3 nm in diameter were shown to have no effect on viscosity in WLM solutions, though they incorporate into micellar chains as pearl-necklace structures. 49 Meanwhile, for anionic WLMs of sodium oleate and octyl trimethylammonium bromide mixed with negatively charged silica, zero-shear viscosity increased 5-fold when particle size decreased from 60 to 15 nm. Clearly particle size impacts pseudo-cross-linking and rheology, but the mechanisms at different dimensions are not yet fully characterized.…”

Section: Effect Of Particle Concentrationmentioning

confidence: 97%

Review on Enhancing Rheological Characteristics of Viscoelastic Surfactant Fracturing Fluids by Nanoparticles: Advances, Challenges, and Perspectives

Mohammadi,

Afifi,

Mahmoudi Alemi

2024

Energy Fuels

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In the past decade, there has been significant attention given to the use of viscoelastic surfactants (VESs) as fracturing fluids in the stimulation of oil and gas reservoirs. One key challenge in VES utilization is improving the rheological performance of the fracturing fluid, ensuring stability and high performance under reservoir conditions characterized by high temperature and pressure. This enhancement aims to increase the wormhole propagation in underground reservoir porous media. To address this, different categories of additives have been employed to improve the performance of the fracturing fluid due to the formation of a filter cake and residual sediment particles after VES application. Nanoparticles have emerged as a particularly interesting additive with unique mechanical and chemical properties and characteristics. Studies have shown that the addition of nanoparticles improves the rheological properties of VES fluids, enhancing their stability and viscosity. Furthermore, nanoparticles have been found to increase the carrying capacity of the VES fluids for particles, making them more effective in different medium. This review provides a comprehensive investigation into the various factors influencing the performance improvement and rheological behavior of VESs by nanoparticles. These factors include surfactants, particle shape and size, temperature, salt concentration, pH, and effects of internal and external breakers. The study also includes a thorough review of the previous research on the use of nanoparticles to enhance the behavioral performance of the VESs. Finally, some fundamental recommendations have been proposed to fill the gap in the related research subject. This work is helpful to the oil and gas industries in applications of VES fluids to different fields, especially in the field of fluid dynamics in reservoir engineering.

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Section: Effect Of Particle Concentrationmentioning

confidence: 97%

Review on Enhancing Rheological Characteristics of Viscoelastic Surfactant Fracturing Fluids by Nanoparticles: Advances, Challenges, and Perspectives

Mohammadi,

Afifi,

Mahmoudi Alemi

2024

Energy Fuels

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“…7(a), it is seen that the disruption of the network is faster than the recovery. Gradual growth of the storage modulus takes tens of the seconds that is close to the typical relaxation time for the WLM networks [20,25]. Such restoring rate is comparable to the restoring rate of various injectable systems for wound healing application [5].…”

Section: Recovery Testmentioning

confidence: 99%

“…Properties of the WLM network can be modified by nanoparticles. Until now, only spherical inorganic particles were dispersed within WLM network [14][15][16][17][18][19][20]. It was shown that these particles can significantly increase the rheological properties.…”

Section: Introductionmentioning

confidence: 99%

“…In addition to silica nanoparticles, some functional nanoparticles were incorporated into WLM networks including pyroelectric [16] and magnetic particles [17,19,20]. Introduction of pyroelectric particles made the hydrogel sensitive to temperature variation.…”

Section: Introductionmentioning

confidence: 99%

“…Heating increased the charge on the surface of particles thereby strengthening their interaction with oppositely charged surfactant micelles and enhancing the rheological properties [16]. In their turn, magnetic particles imparted magnetoresponsive properties to WLM hydrogel [17,19,20]. The aggregation of particles into chain-like/column structures because of magnetization resulted in a solid-like behavior even in rather low magnetic fields and at small volume fraction of particles, indicating the weak restrictions imposed by the matrix on the reorganization of particles in the field, which can be due to the self-assembled structure of the micellar network [19].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Injectable ultra-soft hydrogel with natural nanoclay

Молчанов¹,

Efremova²,

Kiseleva³

et al. 2019

Nanosystems: Phys. Chem. Math.

Self Cite

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Soft hydrogels based on a transient network of wormlike surfactant micelles containing bentonite nanoclay tactoids as physical cross-links were developed. The network was composed of mixed micelles of nontoxic zwitterionic surfactant oleylamidopropyldimethylcarboxybetaine and an anionic surfactant sodium dodecyl sulfate. It was demonstrated that before nanoclay addition the solution has pronounced viscoelastic properties with zero-shear viscosity of 100 Pa s and plateau modulus around 7 Pa, which were attributed to the formation of an entangled micellar network. The solution demonstrated pronounced shear thinning behavior provided by the elongation of wormlike micellar chains in flow direction. Upon addition of non-exfoliated nanoclay particles, the zero-shear viscosity increases by an order of magnitude, while the useful property of shear-induced thinning is retained. Oscillation amplitude tests show that viscoelastic fluid becomes hydrogel upon addition of nanoclay, because elastic response was observed even at large stress amplitudes. This behavior was attributed to the formation of nanoclaywormlike micelles junctions. Prepared soft hydrogel is a promising candidate for injection applications, because of its self-assembled structure providing pronounced shear-thinning behavior and fast recovery of rheological properties at rest. In this nanocomposite material, nanoclay tactoids strengthen the hydrogels and can serve as reservoirs for the delivery of various substances.

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Effect of the number of hydroxyl groups of CO2-triggered surfactants on capability and performance in CO2-stimulated response

Mao

Yang

et al. 2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Magnetically tunable viscoelastic response of soft magnetic nanocomposites with wormlike surfactant micellar matrix

Cited by 6 publications

References 26 publications

Review on Enhancing Rheological Characteristics of Viscoelastic Surfactant Fracturing Fluids by Nanoparticles: Advances, Challenges, and Perspectives

Review on Enhancing Rheological Characteristics of Viscoelastic Surfactant Fracturing Fluids by Nanoparticles: Advances, Challenges, and Perspectives

Injectable ultra-soft hydrogel with natural nanoclay

Effect of the number of hydroxyl groups of CO2-triggered surfactants on capability and performance in CO2-stimulated response

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