Reorientation Kinetics of Local Conformation of Polyisoprene at Substrate Interface

Sugimoto, Shin-ichiro; Inutsuka, Manabu; Kawaguchi, Daisuke

doi:10.1021/acsmacrolett.7b00927

Cited by 50 publications

(53 citation statements)

References 65 publications

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“…If this speculation is true, the temporal face-on oriented structure should be relaxed to a randomly oriented structure, followed by crystallization by thermal annealing (or aging). 36 To confirm this expectation, the annealed film is investigated in the next section. When the low-wavenumber region is magnified (Figure 3c), the (C-H) bands specific to the monoclinic phase are found at 754 and 741 cm -1 (marked by "M") particularly in the IP spectrum implying some monoclinic 37 crystallites in the film, whose crystal structure is the same as that of a wet film prepared from a chloroform solution (Figure 1b).…”

Section: Resultsmentioning

confidence: 85%

Impact of Kinetically Restricted Structure on Thermal Conversion of Zinc Tetraphenylporphyrin Thin Films to the Triclinic and Monoclinic Phases

et al. 2018

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The powerful combination of p-polarized multiple-angle incidence resolution spectroscopy (pMAIRS) and grazing incidence X-ray diffraction (GIXD) is applied to the structural characterization of zinc tetraphenylporphyrin (ZnTPP) in vapor-deposited films as a function of the deposition rate. The deposition rate is revealed to have an impact on the initial film structure and its conversion by thermal annealing. The pMAIRS spectra reveal that a fast deposition rate yields a kinetically restricted amorphous film of ZnTPP having a “face-on orientation”, which is readily discriminated from another “randomly oriented” amorphous film generated at a slow deposition rate. In addition, the GIXD patterns reveal that the film grown at a slow deposition rate involves a minor component of triclinic crystallites. The different initial film structure significantly influences the thermal conversion of ZnTPP films. The randomly oriented amorphous aggregates with the triclinic crystallite seeds are converted to the thermodynamically stable phase (monoclinic) via the metastable triclinic phase. The kinetically restricted structure, on the other hand, is followed by a simple thermal conversion: the molecules are directly converted to the monoclinic one rather than the triclinic one.

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Section: Resultsmentioning

confidence: 85%

Impact of Kinetically Restricted Structure on Thermal Conversion of Zinc Tetraphenylporphyrin Thin Films to the Triclinic and Monoclinic Phases

et al. 2018

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“…Hence, it can be claimed that the relaxation of the SFG peaks is directly connected to the intrinsic dynamics of chains in the strongly adsorbed layer. 42 Similarly, we also reported that PI chains in direct contact with the SiO 2 surface were relaxed at (T g b + 125) K. 41 Although the adsorbed PI chains were fully relaxed with increasing temperature up to (T g b + 130) K, 41 such a full relaxation was not here observed for adsorbed NBR chains. At 423 K, (∼(T g b + 180) K), while the SFG peaks corresponding to different CH stretching vibration modes decreased, the peak arisen from CN groups increased, as shown in Figure 3.…”

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confidence: 73%

“…The dynamics of adsorbed chains on the solid surface are reported to be generally slower than the bulk dynamics. ,,,− The extent of such a slowing down can be strongly dependent on the distance from the solid surface and temperature in addition to the characteristics of polymers and solid surface. ,, However, current understanding of the dynamics for adsorbed chains is generally obtained by simply modeling the interfacial polymer region as a single-layer, but the results still remain apparently controversial. ,,,− ,− Several dielectric relaxation spectroscopy (DRS) results have indicated that adsorbed chains were not immobilized, but relaxed, even at a temperature near the T g b , and the segmental relaxation time was larger by a factor of 100 over a temperature range from ( T g b + 10) to ( T g b + 60) K. ,,− In contrast, nuclear magnetic resonance (NMR) spectroscopy and thermal analysis have indicated the existence of an adsorbed layer just a few nanometers in thickness, in which the dynamics were frozen, even at a temperature far above the T g b , directly bound to the solid filler surface. ,− Our recent results on the basis of sum-frequency generation (SFG) spectroscopy also evidenced that adsorbed chains in direct contact with the SiO 2 surface were immobilized up to ∼80–120 K above the T g b , depending on the molecular nature of the polymer. − Our SFG data further indicated that frozen adsorbed chains could be relaxed by annealing at a higher temperature. This is also supported by Kumar and co-workers in a recent report using a small angle neutron scattering technique .…”

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confidence: 99%

Dynamics Gradient of Polymer Chains near a Solid Interface

et al. 2019

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The relaxation dynamics of polyisoprene (PI) and nitrile butadiene rubber (NBR) chains at the SiO2 interface were directly probed as a function of distance from the SiO2 surface using time-resolved evanescent wave-induced fluorescence anisotropy, dielectric relaxation spectroscopy, and sum-frequency generation spectroscopy. We found the presence of the dynamics gradient of chains in the interfacial region with the SiO2 surface and tried to assign it to the two kinds of adsorbed chains, namely, loosely and strongly adsorbed, at the interface. The segmental relaxation of chains in the strongly adsorbed layer at the interface could be slower than that of bulk chains by more than 10 orders.

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“…This scenario is indeed supported by our recent results on different polymers in contact with a substrate interface. 37,38 In contrast with the enhanced segmental motion of the polymer surface, the segmental motion of interfacial polymers at the substrate interface was observed to occur at temperatures more than 100 K above the bulk T g . 37,38 Although the peak intensity of the ν 2 mode gradually decreased with increasing temperature, it was still dominant at 400 K (Figure 1), 22 K above the bulk T g .…”

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confidence: 96%

Direct Observation of Conformational Relaxation of Polymer Chains at Surfaces

Nguyen

Inutsuka

Kawaguchi³

et al. 2018

ACS Macro Lett.

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Sum-frequency generation spectroscopy was employed to follow the conformation evolution of polystyrene chains at the surface of a spin-coated film in a temperature-ramping mode as well as under isothermal annealing. The conformation of surface chains in an as-cast film was observed to be in a nonequilibrium state, in accordance with reported results for polymer chains in thin spin-coated films. While the relaxation of surface nonequilibrium chains was induced by the enhanced surface mobility, the whole chain motion such as reptation might be a key factor in determining the time scale for equilibrating the surface chain conformation.

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Reorientation Kinetics of Local Conformation of Polyisoprene at Substrate Interface

Cited by 50 publications

References 65 publications

Impact of Kinetically Restricted Structure on Thermal Conversion of Zinc Tetraphenylporphyrin Thin Films to the Triclinic and Monoclinic Phases

Impact of Kinetically Restricted Structure on Thermal Conversion of Zinc Tetraphenylporphyrin Thin Films to the Triclinic and Monoclinic Phases

Dynamics Gradient of Polymer Chains near a Solid Interface

Direct Observation of Conformational Relaxation of Polymer Chains at Surfaces

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