Aayushi Lodhi scite author profile

The shear-induced ordering of the lamellar phase of hexaethylene glycol monohexadecyl ether, C 16 E 6 , in a Couette shear cell has been observed by small angle neutron scattering, SANS. Two distinct lamellae orientations have been identified. At low shear gradients the lamellae are ordered parallel to the flowvorticity plane, whereas at higher shear gradients the lamellae order parallel to the flow-shear gradient plane corresponding to a rotation through 90°of the axis of orientation. At shear gradients intermediate to those two extremes both orientations are observed simultaneously, this being the first report of such a morphology. A novel extension of shear alignment reported here is the application of oscillatory Couette flow. Here, orientation parallel to the flow-vorticity plane and the intermediate state corresponding to components oriented in the two orthogonal directions are observed. These observations are discussed in the context of recent results of shear-induced effects observed in related systems. The additional information obtained from shear flow alignment and from measurements where the neutron beam is incident in a direction orthogonal to the shear gradient (cell side) and parallel to the flow direction has enabled a re-evaluation of the nature of the "defective" lamellar phase.

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Shear-Induced Structures in Concentrated Surfactant Micellar Phases

Penfold¹,

Staples²,

Tucker³

et al. 1997

J Appl Cryst

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Constant and oscillatory Couette shear flow have been used in combination with small-angle neutron scattering to observe the shear-induced ordering in concentrated surfactant micellar phases. For the lamellar phase of hexaethylene glycol monohexadecyl ether, C16E6, two distinct lamellae orientations have been identified. At low shear gradients the lamellae are ordered parallel to the flow-vorticity plane, whereas at higher shear gradients the lamellae order parallel to the flow-shear gradient plane, corresponding to a rotation through 90 ° of the axis of orientation. At intermediate values of constant shear and for oscillatory shear, both lamellae orientations are simultaneously observed for the first time in a surfactant lamellar phase. For the lamellar phase, a dispersion of the binary surfactant mixtures of dioleyl cationic and 2-ethyl hexaglycerol monoether surfactants, a high degree of alignment, in the direction parallel to the flow-vorticity plane, is observed at zero and low shear. With time, during the application of a shear gradient of 25 s-i, the lamellar phase transforms to a highly ordered solution of monodisperse multilamellar vesicles.

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Solid Acid-Catalyzed Esterification of Levulinic Acid for Production of Value-Added Chemicals

Maheria

Lodhi

Lankapati

et al. 2021

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Microalgae Oil Upgrading over Zeolite-Based Catalysts

Maheria

Lodhi

Sharma

2021

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Aayushi Lodhi

Shear-Induced Transformations in the Lamellar Phase of Hexaethylene Glycol Monohexadecyl Ether

Shear-Induced Structures in Concentrated Surfactant Micellar Phases

Solid Acid-Catalyzed Esterification of Levulinic Acid for Production of Value-Added Chemicals

Microalgae Oil Upgrading over Zeolite-Based Catalysts

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