NMR Study of Structure and Dynamics of Ionic Multiplets in Ethylene−Methacrylic Acid Ionomers

Jia, Yuanyuan; Kleinhammes, and Alfred; Wu, Yue

doi:10.1021/ma047647e

Cited by 11 publications

(7 citation statements)

References 19 publications

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“…In the internal coordination of ionic aggregates, the presence of order has long been suspected. ,− SAXS shows that the ionic aggregates of sulfonated polystyrene (SPS) Zn-salts have an electron density only ∼10% lower than Zn benzenesulfonate hexahydrate crystallites, suggesting an ordered structure within them . EXAFS studies of both random and telechelic carboxylate ionomers indicate that the local order around a neutralizing cation in the aggregates is very close to that in the crystallites of their metal acetate analogues.…”

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confidence: 99%

“…A crystalline order is assumed within the aggregates of E-MAA Zn-salts based on their differential scanning calorimetry (DSC) and thermal dilatometry investigations . A 23 Na nuclear magnetic resonance (NMR) study of E-MAA Na-salts implies that their aggregates are made of closely packed – COO – –Na + ion pairs . Nevertheless, no direct, solid evidence has ever been found to confirm the presence of order inside the ionomeric aggregates, which are constrained by covalently bound chain segments compared with those of small-molecule ionic crystals.…”

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Inside the Ionic Aggregates Constrained by Covalently Attached Polymer Chain Segments: Order or Disorder?

Wang

Zhen

et al. 2019

ACS Macro Lett.

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When a small-molecule ionic crystal is group-substituted with polymer chain-segments to form an ionomer, do its constrained ionic aggregates maintain ordered internal structures? This work presents, for a Na-salt sulfonated-polystyrene ionomer, reconciled TEM electron-diffraction schlieren textures and WAXS Bragg-type reflections from the ionic-aggregate nanodomains, which solidly prove the aggregates’ internal (mono)crystalline order. The observed DSC endotherm of the ionomer, identified by WAXS as an order–disorder transition interior to its aggregates, gradually becomes enhanced over a 3-month, room-temperature physical aging process, indicating that the aggregates’ ordering is a slow relaxation process in which the degree of order increases with time. This work corroborates an uncommon form of order, i.e., polymer-bound small-molecule ionic (quasi)crystal, which is supplementary to the order phenomena in small molecules, polymers, and liquid crystals.

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confidence: 99%

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Inside the Ionic Aggregates Constrained by Covalently Attached Polymer Chain Segments: Order or Disorder?

Wang

Zhen

et al. 2019

ACS Macro Lett.

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“…[17][18][19][20] In the case of ionomer, the ion cluster-multi-ion pair structure induced by the electrostatic interaction and ion crosslinking bonds can endow the ionomer with the characteristic of similar chemical crosslinked rubber materials. [21][22][23][24][25][26][27] In view of these characteristics, the intermolecular interaction can be improved and more energy can be dissipated upon suffering from alternating stress, thus enhancing the mechanical strength and damping properties.…”

Section: Introductionmentioning

confidence: 99%

Stable ion bond for high damping, high wet resistance, and low rolling resistance high vinyl polybutadiene rubber‐based dicarboxylate ionomer

Yuan

Wang

et al. 2020

J of Applied Polymer Sci

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Since the implementation of European Union (EU) tire label, the focus of recent attention has been focused on high performance green tire with low rolling resistance, high wet resistance, low noise, and excellent auto‐braking properties. However, it is a significant challenge to simultaneously achieve these performances for rubber materials. In this research, we developed a novel concept on the construction of stable ion bonds for high performance high vinyl polybutadiene rubber (HVBR)‐based dicarboxylate ionomers. HVBR‐based dicarboxylate sodium ionomer (hereafter referred as Na ionomer) was fabricated through complexation reaction of some or all of carboxylic functional groups on the preprepared maleinized HVBR molecular chains with sodium hydroxide. In the case of Na ionomers, the formation of sodium carboxylate group was certified from Fourier transform infrared spectra. Physical and dynamic mechanical measurements indicated that the tensile strength, wear resistance, wet skid resistance, dry sliding resistance, low rolling resistance, and low heat buildup of the Na ionomer were significantly improved compared to that of HVBR, and Na ionomer simultaneously showed better damping properties and the effective damping temperature range was broadened from −8.8 to 30.1°C, which was closer to the room temperature. Consequently, the approach and results collectively represent a significant advance toward the development of high performance green tire rubber materials.

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“…Furthermore, the properties vary as a function of aging. [1][2][3][4][5][6][7] Ionic aggregates are dynamic in nature, as detected by NMR techniques, 8 and hence can have a strong influence on the mechanical properties of the ionomer. 4 One of the widely studied ionomers is neutralized ethylene/methacrylic acid (E/MAA) copolymer, which is known as Surlyn (Dupont, Wilmington, DE).…”

Section: Introductionmentioning

confidence: 99%

Mechanism of aging effects on viscoelasticity in ethylene-methacrylic acid ionomer studied by local thermal-mechanical analysis

et al. 2009

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A unique atomic force microscope-based local thermal-mechanical analysis (LTA) technique was used to study the influence of room temperature aging on viscoelastic properties of ethylene-methacrylic (E/MAA) acid ionomers. This approach permits easy access to structural relaxation effects on viscoelasticity at a short aging time, for instance, before the occurrence of secondary crystallization differential scanning calorimetry (DSC) melting peak. A Burger model along with finite element method yields quantitative analysis of viscoelastic properties versus the aging time. Creep curves were obtained with LTA after various times of aging at room temperature upon cooling from the melt. Measurements were carried out at both 30 and 70 C. The results reveal the effects of structural relaxation upon aging in the ion-rich amorphous region, the influence of secondary crystallites on the viscoelastic properties, and shed light on the processes associated with aging in E/MAA ionomers.

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NMR Study of Structure and Dynamics of Ionic Multiplets in Ethylene−Methacrylic Acid Ionomers

Cited by 11 publications

References 19 publications

Inside the Ionic Aggregates Constrained by Covalently Attached Polymer Chain Segments: Order or Disorder?

Inside the Ionic Aggregates Constrained by Covalently Attached Polymer Chain Segments: Order or Disorder?

Stable ion bond for high damping, high wet resistance, and low rolling resistance high vinyl polybutadiene rubber‐based dicarboxylate ionomer

Mechanism of aging effects on viscoelasticity in ethylene-methacrylic acid ionomer studied by local thermal-mechanical analysis

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