Molecular brushes based on copolymers of alkoxy oligo(ethylene glycol) methacrylates and dodecyl(meth)acrylate: features of synthesis by conventional free radical polymerization

Orekhov, Dmitry V.; Каморин, Д. М.; Simagin, A. S.; Arifullin, I. R.; Казанцев, О. А.; Sivokhin, А. P.; Savinova, M. V.

doi:10.1007/s00289-020-03390-2

Cited by 17 publications

(10 citation statements)

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“…The details of the synthesis, in this case, do not matter, however, if necessary, the synthesis procedure and characterization can be found in the work. [7] This copolymer exhibits thermoresponsive properties in aqueous solutions. Figure 4 presents the dependences of hydrodynamic radius (R h ) and scattering intensity on temperature measured at copolymer concentration of 10 mg/mL in water.…”

Section: Resultsmentioning

confidence: 99%

Temperature Dependence of the Rayleigh Ratio for Toluene: Thermoresponsive Polymers Characterization

Sivokhin

Казанцев

2021

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Benzene and toluene are commonly used reference substances for static light scattering (SLS) measurements. However, due to the appearance and wide availability of solid-state lasers with various wavelengths, there is a need for data on the Rayleigh ratios for references at various wavelengths. Thermoresponsive polymers, which are widely researched now, can have lower critical solution temperature (LCST) values very close to the human body temperature (30-36°C). Such polymers can be used to develop efficient means for targeted drug delivery. In this paper, we report how to accurately determine the absolute molecular weights of thermoresponsive polymers by the SLS method. This is especially important when the LCST value of a polymer is close to the room temperature (at which SLS measurements are usually taken), which can lead to over-estimated results due to the aggregation of macromolecules. So, it is necessary to carefully select the measurement temperature and, accordingly, data are needed on the temperature dependence of the Rayleigh ratios for a reference sample. The Rayleigh ratios and depolarization factors, 1 u and 1 v , were first determined for toluene within a wide temperature range (10-50°C). The temperature dependencies of these parameters were shown to be linear in the whole range investigated. Temperature coefficients for the calculation of the Rayleigh ratios at different scattering geometries were obtained. The particular importance of choosing the optimal measurement temperature when determining the molecular weights of thermoresponsive polymers with low values of LCST using the static light scattering method was demonstrated.

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Section: Resultsmentioning

confidence: 99%

Temperature Dependence of the Rayleigh Ratio for Toluene: Thermoresponsive Polymers Characterization

Sivokhin

Казанцев

2021

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“…For example, a C12-14E7M unit contains a C12-C14 terminal alkyl radical in the ester group and a chain of seven ethoxy groups. Both polymer types exhibited a high alternation rate of alkyl methacrylate and comonomer units [15,24]. However, in 1293 POLYMERS OF HIGHER ALKYL (METH)ACRYLATES AMA-VBE copolymers, all oxygen atoms are connected to the backbone macromolecular chain directly, so that the copolymers in a non-polar oil medium should form contracted or extended polymer coils, depending on the temperature imposed.…”

Section: Resultsmentioning

confidence: 99%

“…For the synthesis and analysis of polymer samples, we used the methods that were previously developed for homopolymers and copolymers of higher alkyl methacrylates and alkyl acrylates [20,21] as well as their copolymers with amine-containing methacrylic esters and amides [22], N-alkyl (meth)acrylamides [23], AOEGM [24], and VBE [15]. For the purposes of the comparative assessment of dispersion properties, we also tested, under similar conditions, a number of commercial additives, specifically: polymethacrylate viscosity index improvers Viscoplex 0-220 and Viscoplex 7-610, polymethacrylate dispersant/VII Viscoplex 12-310 (all manufactured by Evonik RohMaX Additives GmbH), succinimide dispersant S-40 (NPP Qualitet, Russia), and thickener Syntolux V-15 (SOVKHIMTEKH, Russia; this represents a VBE homopolymer).…”

Section: Methodsmentioning

confidence: 99%

Polymers of Higher Alkyl (Meth)acrylates: The Effects of Structure on Dispersion Properties in Petroleum Oil I-20A

et al. 2021

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The paper describes a comparative study on the effects of the composition of polymers of higher alkyl (meth)acrylates on their dispersion degree in petroleum oil I-20A. The dispersion degree parameter is evaluated in accordance with a modified spectrophotometric method proposed in the study. It was found that increasing the polymer amphiphilicity by introducing nitrogen-based units in an amount of 5-15% dramatically enhances the dispersion properties, and that amide groups have a stronger effect than amine ones. Increasing the polyalkyl methacrylate amphiphilicity by introducing (in an amount of 5-40%) alkoxy oligo(ethylene glycol) methacrylate (AOEGM) units containing 3-7 ethoxy groups does not enhance the polymer's dispersion ability. The only exception was a single case of a fairly high dispersion ability achieved for a copolymer containing 30% of AOEGM units with long hydrophilic chains consisting of ten ethoxy groups.

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“…Зависимость конверсии МА (•) и С 3 ОЭГМ-47 (○), а также состава образующегося сополимера (содержания в нем этокси-звеньев) от времени сополимеризации, растворитель  бензол [57].При сополимеризации в толуоле МОЭГМ-7 (или МОЭГМ-11) с ВАОЭГМ, содержащими разные алкильные группы R (C 12 ОЭГM-6, C 12 ОЭГM-9, C 18 ОЭГM-11), строение сомономеров практически не влияло на соотношение их относительных активностей, которые составили для МОЭГМ  1,191,27, для ВАОЭГМ  0,760,81[51]. Аналогичное соотношение активностей макромономеров было получено при RAFT-сополимеризации МОЭГМ-7 и С 12 ОЭГМ-6 в толуоле[60].…”

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“…Аналогичное соотношение активностей макромономеров было получено при RAFT-сополимеризации МОЭГМ-7 и С 12 ОЭГМ-6 в толуоле[60]. Авторы[51] предположили, что молекулы ВАОЭГМ несколько менее активны, поскольку, благодаря наличию высших алкильных групп, они образуют более стабильные ассоциативные структуры, что приводит к уменьшению их подвижности и снижению вероятности контакта винильной группы с растущим макрорадикалом.Таким образом, особенностью радикальной растворной полимеризации с участием ОЭГ(М)А является существенное влияние их ассоциативных и диффузионных свойств, которые определяются строением этих мономеров (структурой радикалов R и R 1 , значениями n), а также природой растворителя и сомономера (в случае сополимеризации). Однако в разных работах представлены отличающиеся (в том числе, противоположные) интерпретации результатов, объясняющие влияние образующихся ассоциативных структур.…”

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Physicochemical properties of oligo(ethylene glycol) (meth)acrylates

et al. 2021

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Molecular brushes based on copolymers of alkoxy oligo(ethylene glycol) methacrylates and dodecyl(meth)acrylate: features of synthesis by conventional free radical polymerization

Cited by 17 publications

References 50 publications

Temperature Dependence of the Rayleigh Ratio for Toluene: Thermoresponsive Polymers Characterization

Temperature Dependence of the Rayleigh Ratio for Toluene: Thermoresponsive Polymers Characterization

Polymers of Higher Alkyl (Meth)acrylates: The Effects of Structure on Dispersion Properties in Petroleum Oil I-20A

Physicochemical properties of oligo(ethylene glycol) (meth)acrylates

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