publications, Réseau
Quantum Advantage in a Molecular Spintronic Engine that Harvests Thermal Fluctuation Energy
Recent theory and experiments have showcased how to harness quantum mechanics to assemble heat/information engines with efficiencies that surpass the classical Carnot limit. So far, this has required atomic engines that are driven by cumbersome external electromagnetic sources. Here, using molecular spintronics, an implementation that is both electronic and autonomous is proposed. The spintronic quantum… Read More
Actu, publications, Réseau
Newsletter #1
Première édition de la newsletter du GDR NEMO lien Read More
Actu, Réseau
50 ans déjà ….
Cette nouvelle année marquera l’anniversaire du premier brevet déposé par IBM concernant l’électronique moléculaire. Retrouvez l’integralité du brevet Read More
publications, Réseau
Planar bridging an atomically precise surface trench with a single molecular wire on an Au(1 1 1) surface
In a bridge configuration, a single graphene nanoribbon (GNR) is positioned with a picometer precision over a trench in between two monoatomic steps on an Au(1 1 1) surface. This GNR molecular wire adopts a deformed conformation towards the down terrace in between the two contact step edges. Using differential conductance dI/dV mapping from a… Read More
Offres, Réseau
Chaire de Professeur Junior
Chaire de Professeur Junior à MOLTECH-Anjou L’Université d’Angers vient de proposer la création d’un poste de Chaire de Professeur Junior (CPJ) au Ministère de l’Enseignement Supérieur et de la Recherche pour soutenir l’activité du laboratoire MOLTECH–Anjou dans le domaine de la « Conception et caractérisation de dispositifs électroniques organiques ». L’objectif est de maintenir la… Read More
Offres, Réseau
Postdoc IEMN
Evolving electronic transport in molecular switches / nanoparticles networks The EVOLMONET project funded by the National Research Agency over the period 2021-2024 in partnership with chemists of MOLTECH-Anjou, aims to develop nanoparticle-molecule networks with switchable molecules in order to implement reconfigurable reservoir computing hardware. In EVOLMONET, we will explore electron transport at high frequency and… Read More
publications, Réseau
Probing the Effect of the Density of Active Molecules in Large-Area Molecular Junctions
The effect of the density of active molecules in molecular junctions (MJs) has been investigated by using a host/guest strategy. Mixed layers consisting of oligothiophene (BTB) encapsulated by β-cyclodextrin (BTB@β-CD) were generated. Cyclodextrins were then removed, and the pinholes generated were filled with BTB to obtain BTB@BTB films. MJs based on mixed BTB@β-CD and BTB@BTB layers, as well as single-component… Read More
Offres, Réseau
Offre Postdoc IEMN
Chercheur CDD (H/F) “Mesures SPM de magnéto-transport sur des nano-objets fonctionnalisés” Missions Development and implementation of nano-fabrication and local probe microscopy techniques to study the grafting, transport and magnetoresistance properties of nano-objects (NOs) functionalized by organic monolayers. Two families of molecules forming SAMs (self assembled monolayers) will be compared: single bonded (typically alkyl chains) and… Read More
publications, Réseau
Artificial Graphene Spin Polarized Electrode for Magnetic Tunnel Junctions
2D materials offer the ability to expose their electronic structure to manipulations by a proximity effect. This could be harnessed to craft properties of 2D interfaces and van der Waals heterostructures in devices and quantum materials. We explore the possibility to create an artificial spin polarized electrode from graphene through proximity interaction with a ferromagnetic… Read More
Offres, Réseau
Offre post doc SU
The LISE (Laboratoire Interfaces et Systèmes Electrochimiques) and LRS (Laboratoire de Réactivité de Surface) laboratories are two associated research units of the CNRS (« Unités Mixtes de Recherche »), which are localized at Sorbonne Université, on the Jussieu campus, Paris 5th . They are one of the partner of the cubic project funded by the… Read More
