M
Marc A. Hillmyer
Researcher at University of Minnesota
Publications - 598
Citations - 41267
Marc A. Hillmyer is an academic researcher from University of Minnesota. The author has contributed to research in topics: Copolymer & Polymerization. The author has an hindex of 103, co-authored 574 publications receiving 36643 citations. Previous affiliations of Marc A. Hillmyer include University of Colorado Boulder & University of North Carolina at Chapel Hill.
Papers
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Poly(alkyl methacrylate)-Grafted Polyolefins as Viscosity Modifiers for Engine Oil: A New Mechanism for Improved Performance
Mohammad T. Savoji,Dan Zhao,Richard J. Muisener,Klaus Schimossek,Katrin Schoeller,Timothy P. Lodge,Marc A. Hillmyer +6 more
TL;DR: In this article, a combination of ring-opening metathesis polymerization, atom transfer radical polymerization of alkyl methacrylates, and hydrogenation was used to prepare the target materials.
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Solid-Contact Ion-Selective and Reference Electrodes Covalently Attached to Functionalized Poly(ethylene terephthalate).
Evan L. Anderson,Sujay A. Chopade,Brian D. Spindler,Andreas Stein,Timothy P. Lodge,Marc A. Hillmyer,Philippe Bühlmann +6 more
TL;DR: Covalent attachment of sensing and reference membranes to an inert plastic platform material is a very promising approach to a problem that has plagued the field of ion-selective electrodes and field effect transistors for over 30 years.
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Intrinsically Hierarchical Nanoporous Polymers via Polymerization-Induced Microphase Separation
TL;DR: In this paper, the authors combine polymers of intrinsic microporosity with polymerization-induced microphase separation (PIMS), a versatile methodology for the synthesis of nanostructured materials that can be rendered mesoporous.
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Synthesis of Tri- and Multiblock Polymers with Asymmetric Poly(ethylene oxide) End Blocks
TL;DR: In this paper, anionic synthesis of poly(ethylene oxide-b-isoprene,b-ethyleneoxide) (OIO) triblock copolymers with asymmetrically sized poly(methylene oxide) (PEO) end blocks using triisopropylsilyloxy-1-propyllithium (TIPSOPrLi) as a protected initiator and diphenylmethyl potassium (DPMK) as the base activator for EO polymerization.
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Mechanical Consequences of Molecular Composition on Failure in Polyolefin Composites Containing Glassy, Elastomeric, and Semicrystalline Components
TL;DR: In this paper, the mechanisms of deformation and ultimate failure in a homologous series of lamellae-forming polyolefin block copolymers comprised of glassy poly(cyclohexylethylene) are studied.