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Alejandro J. Müller
Researcher at University of the Basque Country
Publications - 478
Citations - 15173
Alejandro J. Müller is an academic researcher from University of the Basque Country. The author has contributed to research in topics: Crystallization & Differential scanning calorimetry. The author has an hindex of 58, co-authored 420 publications receiving 12410 citations. Previous affiliations of Alejandro J. Müller include University of Bristol & University of Arizona.
Papers
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Crystallization and morphology of biodegradable or biostable single and double crystalline block copolymers
TL;DR: In this paper, a review of the literature on the crystallization and morphology of biodegradable block copolymers with at least one crystallizable component is presented, focusing on double crystalline diblock copolymer.
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Effect of annealing time on the self‐nucleation behavior of semicrystalline polymers
TL;DR: In this paper, the authors investigated the time dependence of the self-nucleation in Domain II self-melting and showed that if crystal fragments are present (even if undetected by the employed techniques) their final melting is a very slow process (in the order of hours).
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Homogeneous nucleation and fractionated crystallization in block copolymers
TL;DR: In this paper, the authors examined the behavior of a series of AB and ABC block copolymers incorporating one or two of the following crystallizable blocks: polyethylene, poly(e-caprolactone), and poly(ethylene oxide).
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Thermal and morphological characterization of nanocomposites prepared by in-situ polymerization of high-density polyethylene on carbon nanotubes
Mariselis Trujillo,María Luisa Arnal,Alejandro J. Müller,Estrella Laredo,Bredeau,Daniel Bonduel,Ph. Dubois +6 more
TL;DR: In this paper, the morphology, nucleation, and crystallization of polyethylene/carbon nanotubes nanocomposites were studied, and an excellent nucleating effect was found regardless of the CNT type.
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Confinement effects on polymer crystallization: From droplets to alumina nanopores
TL;DR: In this paper, the authors review previous works on polymer confined crystallization employing strategies that allow confinement to go from the micron to the nanometer scale: droplets, blends, block copolymers and infiltration into alumina nanopores.