Offres, Réseau
Offre these ITODYS
L’objectif de ce projet de thèse est de développer de nouvelles jonctions moléculaires pour des applications en électronique moléculaire. Forts de notre expérience dans ce domaine, nous nous intéressons à l’optimisation de ces systèmes et notamment le rôle primordial des couches moléculaires. Il s’agira d’étudier différents systèmes moléculaires comportant soit des charges (complexes métalliques par… Read More
publications, Réseau
Manipulation of the magnetic state of a porphyrin-based molecule on gold: From Kondo to quantum nanomagnet via the charge fluctuation regime
By moving individual Fe-porphyrin-based molecules with the tip of a scanning tunneling microscope in the vicinity of the elbow of the herringbone-reconstructed Au(111) containing a Br atom, we reversibly and continuously control their magnetic state. Several regimes are obtained experimentally and explored theoretically: from the integer spin limit, through intermediate magnetic states with renormalized magnetic… Read More
publications, Réseau
Growth and local electronic properties of Cobalt nanodots underneath graphene on SiC(0001)
The coupling of graphene with a ferromagnetic material opens opportunities for technological innovations in spintronics. To obtain this coupling it is necessary to control the elaboration of interfaces at the atomic scale. Here, we present results on cobalt intercalation between graphene and a buffer layer supported on a SiC(0001) substrate. As a result, we obtain cobalt islands covered by graphene… Read More
publications, Réseau
Surface symmetry effect on the charge transfer at the black, blue, and green phosphorene/graphene interfaces
In the present study, a comparative prediction of atomic and electronic structure of black, blue, and green phosphorene/graphene heterostructures is presented using Density Functional Theory (DFT). The lowest total and interaction energies and highest charge transfer correspond to the blue phosphorene/graphene interface, followed by black and green phosphorene/graphene interfaces. This trend is the same for… Read More
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Offre de thèse IPCMS
offre de thèse a l’IPCMS a Strasbourg en spintronique moléculaire plus d’informations ici Read More
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Postdoc position INSP (Paris) JUNE 2023
Postdoctoral Position in Theoretical Condensed Matter Physics or Theoretical Chemistry L’Institut des NanoSciences de Paris – Sorbonne Universitée Paris 75005 Applications are invited for a postdoctoral research position to explore the electronic structure and non-equilibrium photo-dynamics of novel low-dimensional organic materials. The work is particularly focussed on real-time dynamics and spatio-temporally resolved spectroscopy of excitons… Read More
Offres, Réseau
ELECMOL 2023 at Strasbourg
Molecular electronics is a widely interdisciplinary field at the frontiers of physics, chemistry, biology, electronics and their many interfaces. The design and use of electronic components and devices at the nanometer scale is a major challenge for the near future. Following the success of the previous editions, we are pleased to announce the 11h International… Read More
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PostDoc position at IEMN
PostDoc position opening on the following topic: Elaboration and study of physical properties of graphene-based nanostructures The discovery of new 2D materials with original electronic band structures has initiated a tremendous interest for studying how further modification of their morphology can affect these physical properties. One of the main objectives has been to find alternatives… Read More
Actu, Réseau
21ème colloque Louis Néel
Le 13 au 16 novembre 2023 au domaine du Lazaret, à Sète se tiendra le 21ème colloque Louis Néel. Notez que cette année, le colloque sera aussi l’occasion de la réunion de lancement du PEPR SPIN, qui occupera l’après-midi du lundi 13 novembre. Vous trouverez toutes les informations utiles sur site internet du colloque : https://cln2023.sciencesconf.org/.… Read More
publications, Réseau
Activation, Transportation, and Reaction of Alkyl Radicals on a Si(111)-B Surface by a Scanning Tunneling Microscope Tip
On-surface chemistry is a powerful method to fabricate organic nanostructures with high precision onto different kinds of surfaces. On more inert surfaces, the lack of reactivity of the underlying substrate can be circumvented by using the electrons from a scanning tunneling microscope (STM) tip, as a stimulus, to produce the reactants of a targeted reaction.… Read More
