F
Fayna Mammeri
Researcher at University of Paris
Publications - 46
Citations - 1633
Fayna Mammeri is an academic researcher from University of Paris. The author has contributed to research in topics: Nanoparticle & Hybrid material. The author has an hindex of 16, co-authored 46 publications receiving 1325 citations. Previous affiliations of Fayna Mammeri include University of Poitiers & Saint-Gobain.
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Mechanical properties of hybrid organic–inorganic materials
TL;DR: In this paper, the properties of hybrid O-I materials are dependent on their micro-and nanostructures and on the nature and extent of the interfaces between the OI interfaces.
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The polyol process: a unique method for easy access to metal nanoparticles with tailored sizes, shapes and compositions.
Fernand Fiévet,S. Ammar-Merah,Roberta Brayner,F. Chau,Marion Giraud,Fayna Mammeri,Jennifer Peron,Jean-Yves Piquemal,L. Sicard,Guillaume Viau +9 more
TL;DR: The scope of the polyol process has been extended to the preparation of more electropositive metals, such as post-transition metals and semi-metals, and the potential of this method is also clearly displayed for the prepared of alloys, intermetallics and core-shell nanostructures with a very large diversity of compositions and architectures.
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Hairy carbon nanotube@nano-Pd heterostructures: design, characterization, and application in Suzuki C-C coupling reaction.
Samia Mahouche Chergui,Alexandre Ledebt,Fayna Mammeri,Frédéric Herbst,Benjamin Carbonnier,Hatem Ben Romdhane,Michel Delamar,Mohamed M. Chehimi +7 more
TL;DR: The as-designed hairy CNTs served as efficient platforms for the in-situ synthesis and massive loading of 3 nm sized palladium nanoparticles (NPs) and exhibited an efficient catalytic effect in the C-C Suzuki coupling reaction.
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Iron Oxide and Gold Based Magneto-Plasmonic Nanostructures for Medical Applications: A Review.
TL;DR: This review introduces the previous work on magneto-plasmonic hetero-nanostructures and focuses on the most important progress made with regard to their use in nanomedicine, keeping in mind the correlation between their morphology—namely spherical and non-spherical, core-satellite and core-shell, and the desired applications.
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Elaboration and mechanical characterization of nanocomposites thin films: Part I: Determination of the mechanical properties of thin films prepared by in situ polymerisation of tetraethoxysilane in poly(methyl methacrylate)
TL;DR: In this article, the performance of PMMA-SiO 2 based thin films was investigated using nanoindentation, and the structure and the mechanical behaviour were reported for thin films as a function of the fraction of silica.