Supramolecular polymers with reversed viscosity/temperature profile for application in motor oils

Ostwaldt, Jan-Erik; Hirschhäuser, Christoph; Maier, Stefan K; Schmuck, Carsten; Niemeyer, Jochen

doi:10.3762/bjoc.17.11

Beilstein J. Org. Chem.

2021

DOI: 10.3762/bjoc.17.11

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Supramolecular polymers with reversed viscosity/temperature profile for application in motor oils

Jan-Erik Ostwaldt¹,

Christoph Hirschhäuser²,

Stefan K Maier³

et al.

Abstract: We report novel supramolecular polymers, which possess a reversed viscosity/temperature profile. To this end, we developed a series of ditopic monomers featuring two self-complementary binding sites, either the guanidiniocarbonyl pyrrole carboxylic acid (GCP) or the aminopyridine carbonyl pyrrole carboxylic acid (ACP). At low temperatures, small cyclic structures are formed. However, at elevated temperatures, a ring–chain transformation leads to the formation of a supramolecular polymer. We demonstrate that th… Show more

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Cited by 2 publications

References 30 publications

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Thermoresponsive Polymers as Viscosity Modifiers: Innovative Nanoarchitectures as Lubricant Additives

Carfora,

Notari,

Assanelli

et al. 2024

ChemPlusChem

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The world of lubricants is driven by the constant pursuit of improved performance in response of the requests of new engine generations. Engine oils play a critical role as lubricants in mitigating wear, reducing friction and ensuring optimal engine operation under diverse conditions. Modern commercial engine oils are complex formulations, comprising of a base oil, generally coming from petroleum sources, formulated with specific, important additives able to optimize the viscosity, thickening and shear stress in the operating temperature range. Such additives are produced in the thousand tons per year scale range. The most important class of additives for modern lubrication is made of organic polymers with variable architectures and topologies, generally referred as “viscosity modifiers” (VMs): they act as “moderators” of viscosity at different working temperatures. The tremendous advances in polymer science have been reflected in the realm of VMs, allowing the commercialization of products obtained by controlled polymerization techniques, and the experimentation of a broad variety of different macromolecular architectures and topologies as VMs. In this review we introduce the reader, together with the basic principles of viscosity modification and thermal‐dependent rheological response, to the fascinating chemistry towards the improvement of VMs, through optimization of macromolecular design and architecture.

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Thermoresponsive Polymers as Viscosity Modifiers: Innovative Nanoarchitectures as Lubricant Additives

Carfora,

Notari,

Assanelli

et al. 2024

ChemPlusChem

View full text Add to dashboard Cite

show abstract

Shear flow of associative polymers in aqueous solutions

Bercea¹,

Grădinaru²,

Barbălată-Mândru³

et al. 2021

Journal of Molecular Structure

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Supramolecular polymers with reversed viscosity/temperature profile for application in motor oils

Cited by 2 publications

References 30 publications

Thermoresponsive Polymers as Viscosity Modifiers: Innovative Nanoarchitectures as Lubricant Additives

Thermoresponsive Polymers as Viscosity Modifiers: Innovative Nanoarchitectures as Lubricant Additives

Shear flow of associative polymers in aqueous solutions

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