Dmitry Igorevich Gerasimov scite author profile

Dmitry Igorevich Gerasimov

2Publications

1Citation Statement Received

50Citation Statements Given

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Institute of Macromolecular Compounds

Publications

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Evolution of the Surface Structure and Functional Properties of the Electroconducting Polymer Coatings onto Porous Films

et al. 2022

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Composite systems containing electroconducting polymer coatings (polyaniline and polypyrrole) applied to porous films of semicrystalline polymers (polyethylene, polypropylene, and polyvinylidene fluoride) have been prepared. Porous supports were obtained in the process based on polymer melt extrusion with subsequent annealing, uniaxial extensions, and thermal stabilization. Conducting coatings were formed by the oxidative polymerization of the monomers directly onto the porous supports. The structure (overall porosity, permeability, pore sizes, factor of orientation) and morphology (specific surface and character of the film surface) of the supports were characterized by sorptometry, filtration porosimetry, atomic force microscopy (AFM), and X-ray scattering techniques. It was observed that the porous supports have a strongly developed relief surface which is formed in the pore formation process. It was proven by scanning electron microscopy (SEM) that the porous supports have an oriented structure, and the surface of the composites is defined by the morphology inherent in the conducting component. It was shown that these composites (porous support/conducting coating) demonstrate electric conductivity both along the surface and between surfaces. It was demonstrated that the deposition of conducting coatings leads to an increase in the water wettability of the composites compared with pronounced hydrophobic supports. The composites are characterized by good adhesion between components due to a relief film surface as well as high mechanical strength and elasticity provided by the oriented character of the supports.

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Микропористые Полимерные Пленки Как Сепараторы Для Литий-Ионных Аккумуляторов

Pakal’nis¹,

Курындин²,

Gerasimov³

et al. 2023

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New microporous polyethylene, polypropylene and polyvinylidene fluoride films as separators for lithium-ion batteries have been elaborated. The materials were obtained in the process based on polymer melt extrusion. Investigations of the batteries in the mode of charge-discharge cycles were carried out. It is shown that these porous materials match or exceed performance characteristics of industrially produced separators "Celgard 2400". It was found the use of polyethylene separators permits to prevent an emergency situation caused by an increase in temperature during battery operation.

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