• Congratulations Fabien for the ERC consolidator grant :"An ionoelectronic neuromorphic interface for communication with living systems."
                      • Electron transport in polyoxometale molecular junction, published in  J. Am. Chem. Soc.
                      • NDR, memory, reconfigurable logic in a monolayer device, just published in J. Phys. Chem. C.
                      • Insights on intermolecular interactions from conductance histograms, Nano Lett.
                      • Molecular Electronics at high-frequencies : A 17 GHz molecular rectifier, Nature Communications (open access).
                      • Micronic OECTs as hydrazine sensors. S. Pecqueur et al., Sensors (read here).
                            • A new publication on molecular switches and nanoparticules networks in J. Phys. Chem. C
                            • Nanodot molecular junctions and effects of mechanical forces : a new paper in Nanoscale.

                            Nanostructures, nanoComponents & Molecules


                            The NCM research group (Nanostructures, nanoComponents & Molecules) is interested in molecular electronics, i.e. the physics of nanostructures and nanodevices made of organic molecules and/or hybrid systems involving organic molecules, inorganic metal and/or semiconductor nanostructures. We contribute to knowledge development, studying the fundamental electronic and transport properties of various molecular devices based on self-assembled monolayers, small ensemble of molecules, assembly of molecules and nano-objects. We develop new devices for molecular-scale electronics and organic electronics.

                            Our research objectives are:

                            • design and characterization of molecular and nanoscale electronic devices
                            • elucidation of fundamental electronic properties of these molecular and nanoscale devices
                            • study of functional molecular devices and integrated molecular systems
                            • exploration of new device concepts.

                            Organization. The research activities are organized in three topics and a support lab.

                            • Physics & electronic transport at molecular scale, functional molecular devices (PI : Dr. Stephane Lenfant).
                            • Organic devices (PI : Prof. Kamal Lmimouni).
                            • Neuro-inspired devices (PI : Dr. Fabien Alibart).
                            • These research are supported by a chemical synthesis lab (PI : Dr. David Guerin).

                            Enjoy your visit of our group web site

                            Dominique VUILLAUME
                            Group head

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