M
Myrtil L. Kahn
Researcher at Centre national de la recherche scientifique
Publications - 78
Citations - 2700
Myrtil L. Kahn is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Nanoparticle & Nanorod. The author has an hindex of 22, co-authored 69 publications receiving 2511 citations. Previous affiliations of Myrtil L. Kahn include University of Rennes.
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Journal ArticleDOI
Systematic Investigation of the Nature of The Coupling between a Ln(III) Ion (Ln = Ce(III) to Dy(III)) and Its Aminoxyl Radical Ligands. Structural and Magnetic Characteristics of a Series of {Ln(organic radical)2} Compounds and the Related {Ln(Nitrone)2} Derivatives
Myrtil L. Kahn,Jean-Pascal Sutter,Stéphane Golhen,Philippe Guionneau,Lahcène Ouahab,and Olivier Kahn,Daniel Chasseau +6 more
TL;DR: In this article, the magnetic properties of a series of isostructural compounds, {Ln(organic radical)2(NO3)3}, comprising a Ln(III) ion surrounded by two N,O-chelating aminoxyl radicals (3-nitronyl nitroxide-4,5dimethyltriazole) have been investigated.
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Nature of the Interaction between Ln(III) and Cu(II) Ions in the Ladder-Type Compounds {Ln(2)[Cu(opba)](3)}.S (Ln = Lanthanide Element; opba = ortho-Phenylenebis(oxamato), S = Solvent Molecules).
TL;DR: It has been confirmed that the Gd(III)-Cu(II) interaction was ferromagnetic, and it was found that the Tb( III)-Cu (II) and Dy(III-Cu( II) interactions wereFerromagnetic as well.
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Size‐ and Shape‐Control of Crystalline Zinc Oxide Nanoparticles: A New Organometallic Synthetic Method
TL;DR: In this article, an organometallic synthetic method has been developed for the preparation of crystalline ZnO nanoparticles of controlled size and shape, taking advantage of the exothermic reaction of the precursor Zn(c-C6H11)2 toward moisture and air and involves the presence of longalkyl-chain amines as stabilizing ligands.
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Room-Temperature Organometallic Synthesis of Soluble and Crystalline ZnO Nanoparticles of Controlled Size and Shape
TL;DR: The room-temperature synthesis of ZnO nanoparticles of controlled size and shape in solution is reported, which provides crystalline nanoparticle of regular disk or rod shapes depending on the characteristics of the solution, in terms of solvent, ligand, and concentration.
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Analytical determination of the [Ln-aminoxyl radical] exchange interaction taking into account both the ligand-field effect and the spin-orbit coupling of the lanthanide ion (Ln = DyIII and HoIII).
TL;DR: Values of the intramolecular [Ln-aminoxyl radical] exchange parameter have been rigorously deduced for both the Dy Kramers and Ho non-Kramers ion-based compounds.