G
Guillaume Calvez
Researcher at University of Rennes
Publications - 89
Citations - 3139
Guillaume Calvez is an academic researcher from University of Rennes. The author has contributed to research in topics: Lanthanide & Crystal structure. The author has an hindex of 26, co-authored 83 publications receiving 2653 citations. Previous affiliations of Guillaume Calvez include European University of Brittany & Intelligence and National Security Alliance.
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Magnetic Anisotropy in a Dysprosium/DOTA Single‐Molecule Magnet: Beyond Simple Magneto‐Structural Correlations
Giuseppe Cucinotta,Mauro Perfetti,Javier Luzón,Mael Etienne,Pierre-Emmanuel Car,Andrea Caneschi,Guillaume Calvez,Kevin Bernot,Roberta Sessoli +8 more
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Magnetic anisotropy and spin-parity effect along the series of lanthanide complexes with DOTA.
Marie-Emmanuelle Boulon,Giuseppe Cucinotta,Javier Luzón,Chiara Degl'Innocenti,Mauro Perfetti,Kevin Bernot,Guillaume Calvez,Andrea Caneschi,Roberta Sessoli +8 more
TL;DR: A reorientation of the easy axis of magnetization from perpendicular to parallel to the Ln-O bond of the apical water molecule is experimentally observed and theoretically predicted.
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Structural and luminescent properties of micro- and nanosized particles of lanthanide terephthalate coordination polymers.
Carole Daiguebonne,Nicolas Kerbellec,Olivier Guillou,Jean-Claude G. Bünzli,Frédéric Gumy,Laure Catala,Talal Mallah,Nathalie Audebrand,Yves Gérault,Kevin Bernot,Guillaume Calvez +10 more
TL;DR: The isostructurality of the compounds with the previously reported Tb-containing polymer is ascertained on the basis of their X-ray powder diffraction diagrams and the luminescence properties of all the compounds have been recorded and the two most luminescent polymers have been studied in more detail.
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A Long Journey in Lanthanide Chemistry: From Fundamental Crystallogenesis Studies to Commercial Anticounterfeiting Taggants.
TL;DR: It is demonstrated here that strong fundamental research is a very effective tool to create a technological breakthrough that allows the development of efficient applicative research and competitive products and finally contributes to economic growth.
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A Luminescent and Sublimable DyIII-Based Single-Molecule Magnet
Xiaohui Yi,Kevin Bernot,Fabrice Pointillart,Giordano Poneti,Giordano Poneti,Guillaume Calvez,Carole Daiguebonne,Olivier Guillou,Roberta Sessoli +8 more
TL;DR: The thermal investigation of [Dy(hfac)(3)(PyNO)](2) shows that the dimers can be sublimated intact, suggesting their possible exploit as active materials for surface-confined nanostructures to be investigated by fluorimetry methods.