2011
DOI: 10.1021/ma200470a
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Heterogeneity of the Segmental Dynamics in Lamellar Phases of Diblock Copolymers

Abstract: By means of computer simulations, we investigate the segmental dynamics in the lamellar phase of a simple bead–spring model of diblock copolymers. We characterize the dynamic heterogeneity in the mean-squared displacements and bond reorientations. This characterization is made as a function of both the position of the monomers along the chain and the distance to the nearest interface between consecutive domains. Both characterizations of the dynamic heterogeneity reveal moderate gradients of mobility in the in… Show more

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Cited by 34 publications
(62 citation statements)
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“…This result evidences that the effect of the presence of the, much more flexible and faster, PDMS block on the α-dynamics of the PI block is restricted to a few segments close to the junction point. This is consistent with recent computational investigations on the α-relaxation in bead−spring copolymers with lamellar, 18 cylindrical, and spherical morphologies. 19 A thorough experimental characterization of the segmental dynamics in the different morphologies of the PI−PDMS copolymers is beyond the scope of this work and will be shown elsewhere.…”
Section: Resultssupporting
confidence: 92%
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“…This result evidences that the effect of the presence of the, much more flexible and faster, PDMS block on the α-dynamics of the PI block is restricted to a few segments close to the junction point. This is consistent with recent computational investigations on the α-relaxation in bead−spring copolymers with lamellar, 18 cylindrical, and spherical morphologies. 19 A thorough experimental characterization of the segmental dynamics in the different morphologies of the PI−PDMS copolymers is beyond the scope of this work and will be shown elsewhere.…”
Section: Resultssupporting
confidence: 92%
“…29 In the following, time and length units in the simulations can be qualitatively mapped to picoseconds and nanometers. 28 The procedure for equilibration of the lamellar structure in the ordered phases, and other simulation details, are described in ref 18. D. Small-Angle X-ray Scattering (SAXS).…”
Section: Experimental and Simulation Detailsmentioning
confidence: 99%
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“…In brief, our results suggest that the heterogeneities in dynamics are enhanced near interfaces and that such characteristics become more pronounced with increasing mobility disparity and degree of segregation between the A and B blocks. These results broadly mirror the trends reported by Slimani et al…”
Section: Introductionsupporting
confidence: 91%
“…[ 9 ] While this fi eld has most heavily focused on polymers [ 4,6 ] and small molecules liquids [ 7,10,11 ] confi ned in thin fi lm or pore geometries, polymers with internal nanostructure, such as those shown [ 12 ] in Figure 1 , have been reported to exhibit similar alterations in dynamics for half a century or more. These observations include the following: deviations of T g from pure-state values in block copolymer nanodomains, noted as early as the 1960s; [13][14][15][16][17][18][19][20][21] shifts in segmental dynamics around particles in nanocomposites [22][23][24][25][26][27][28][29] and fi lled rubbers, [30][31][32][33][34] which are believed to contribute to mechanical reinforcement effects in these systems; observation of a rigid amorphous fraction with suppressed segmental dynamics and enhanced T g around crystalline domains in semicrystalline polymers; [ 35 ] and evidence of suppressedmobility domains surrounding ionic aggregates in ionomers. [36][37][38] Despite strong parallels in the phenomenology of near-interface dynamics in these materials, they have commonly been treated as fundamentally distinct systems, each with unique underlying physics.…”
Section: Introductionmentioning
confidence: 99%