Daisuke Mitsumasu scite author profile

Daisuke Mitsumasu

2Publications

49Citation Statements Received

142Citation Statements Given

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137

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Nagaoka University of Technology

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Shear-induced onion formation of polymer-grafted lamellar phase

et al. 2012

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We study the shear-induced lamellar/onion transformation of the polymer-grafted lamellar phase composed of nonionic surfactant and amphiphilic triblock copolymers. Increase in the mole fraction of polymer X P and the degrees of polymerization of hydrophilic chain N EO remarkably affects the shearinduced onion phase formation behavior. From the viewpoint of the defect-mediated rheology, the shear modulus G 0 is attributed to the oily streak network density. Linear increase in G 0 with preshear rate prior to the onion formation indicates that the increase in the oily streak network density is essential as a pretransition. The oily streak is composed of the focal conic domains (FCDs), which locally have inhomogeneous layer spacing. The critical shear stress s c is well scaled by the effective increment of the bending modulus theoretically predicted for the polymer-grafted membranes, Dk $ X P N 1.27 EO . Experimental results suggest that the shear-induced onion phase is achieved by reorganizing the layer orientation of FCDs with the negative Gaussian curvature in order to eliminate the inhomogeneous layer spacing.

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Shear-induced Onion Formation of Triblock Copolymer-embedded Surfactant Lamellar Phase

Fujii

Mitsumasu

Isono

2013

J. Soc. Rheol., Jpn

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We study the shear-induced lamellar/onion transformation of the amphiphilic triblock copolymer-embedded surfactant lamellar phase. Increase in the mole fraction of polymer X P and the degrees of polymerization of hydrophobic PO chain N PO allows to increase the critical shear stress. The critical shear stress σ C can be scaled by the effective increment of the bending modulus, which is originally predicted for the hydrophilic polymer-grafted membranes, ∆κ ~ X P N 1.2 . N PO dependence of the onion size is attributed to the disturbed compression modulus of the membrane via the embedded hydrophobic chain. All of these influences on the onion formation will be attributed to the configuration entropy of the embedded hydrophobic polymers in the bilayer.

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