E
Emmanuel P. Giannelis
Researcher at Cornell University
Publications - 396
Citations - 41441
Emmanuel P. Giannelis is an academic researcher from Cornell University. The author has contributed to research in topics: Nanocomposite & Polymer. The author has an hindex of 88, co-authored 387 publications receiving 38528 citations. Previous affiliations of Emmanuel P. Giannelis include Foundation for Research & Technology – Hellas & University of Ljubljana.
Papers
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Journal ArticleDOI
Functionalized Nanostructures with Liquid‐Like Behavior: Expanding the Gallery of Available Nanostructures
Athanasios B. Bourlinos,S. Ray Chowdhury,Rafael Herrera,David D. Jiang,Qiang Zhang,Lynden A. Archer,Emmanuel P. Giannelis +6 more
TL;DR: In this paper, a family of functionalized nanostructures that exhibit liquid-like behavior in the absence of solvents and preserve their nanostructure in the liquid state is presented.
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Intercalation Kinetics of Long Polymers in 2 nm Confinements
Evangelos Manias,Hongyu Chen,Ramanan Krishnamoorti,Jan Genzer,Edward J. Kramer,Emmanuel P. Giannelis +5 more
TL;DR: In this article, the motion of confined polymers is measured experimentally between parallel, atomically smooth solid surfaces, separated by 2 nm, and the kinetic data are interpreted in terms of an effective diffusion coefficient, which undergoes a dramatic decrease with stronger silicate surface-polymer interaction.
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Synthesis and characterization of polyolefin–silicate nanocomposites: a catalyst intercalation and in situ polymerization approach†
TL;DR: An organically modified fluorohectorite intercalated by a well-defined cationic palladium complex forms an exfoliated polyolefin-silicate nanocomposite material when exposed to olefinic monomer as discussed by the authors.
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Highly Elastic, Transparent, and Conductive 3D‐Printed Ionic Composite Hydrogels
Jérémy Odent,Thomas J. Wallin,Wenyang Pan,Kevin Kruemplestaedter,Robert F. Shepherd,Emmanuel P. Giannelis +5 more
TL;DR: A family of ionic composite hydrogels with excellent mechanical properties that can be rapidly 3D-printed at high resolution using commercial stereolithography technology is presented in this paper.
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Dielectric nanocomposites for integral thin film capacitors: materials design, fabrication and integration issues
TL;DR: In this paper, the role of an organically modified interface in limiting the thermal diffusion of copper metal in the composite thin film has been investigated employing Rutherford backscattering spectroscopy.