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Polymer-based nanowires
Molecules, salt and light : an easy recipe to provide giant nanowires !
On-surface polymerization of organic precursors provides new possibilities to form highly-stable and atomically-defined nanostructures with desired properties. As emphasized by the Nobel Prize in Physics in 2016, awarded for early work in understanding topological phase transitions and topological phases of matter, the formation of artificial matter exhibiting properties controlled by their symmetry is very promising in nanoelectronics. This issue has been addressed by many research groups who performed on-surface reactions under ultra-high vacuum (UHV) conditions and on atomically clean single-crystal metal substrates. In this solvent-free environment, classical chemical reactions such as Ullmann type coupling, Glaser coupling, and many more have successfully been used to create well-defined and covalently bound organic 1D and 2D structures with dimensions of about 100 nm. However, for the basic building blocks of molecular circuitry to interconnect active devices there is a need to fabricate isolated nanowires with a length larger than 1 μm.
Other than length, the main limitations of structures fabricated to date for use in future nanoscale electronic and optical devices are (i) the use of metal substrates (for instance, leading to non-radiative quenching), (ii) the high number of defects in the formed covalent structures, and (iii) the side-products of some reactions that might remain on the substrate surface. This is why in our work, published in Nature Chemistry, we overcome these identified obstacles by using a side product-free 1D polymerization on an alkali-halide surface. This new concept is driven by light-induced radical polymerization, a classic chemical reaction pathway, but one which has never been transferred onto the surface of bulk insulators so far.
Noncontact atomic force microscopy was used to evaluate the geometrical structure of the fibres formed on the KCl substrate and to test both their mechanical and thermal stability. A deeper insight into the reaction mechanism and the energy barriers involved is obtained by comparing the experimental observations with calculations, which revealed the strong localization of the active biradicals at the fibre ends.
We hope that with our work we will ‘initiate’ a completely new way to synthesize organic compounds on surfaces, especially on insulating substrates.
Contact : Frédéric Chérioux
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Two ERC Grants for FEMTO-ST Institute in 2011
Prof John DUDLEY & Dr Yanne CHEMBO from the Optics Depmarment of FEMTO-ST Institute (UMR 6174 CNRS-Université de Franche-Comté) have both received a financial Grant from the European Research Council (ERC) to support the top level scientific excellence of their research projects
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Michel planat makes the Insights News of the Journal of Physics A: Mathematical and Theoretical
Michel Planat's Insights news article "Quantum computing with Riemann hypothesis" is now available on the journal's website and can be viewed at http://iopscience.iop.org/1751-8121/labtalk-article/45421. This news article is based on the recent paper published by the Journal of Physics A: Mathematical and Theoretical.
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Summer school in Microrobotics and Self-assembly for hybrid MEMS
The general context of the summer school concerns the micromanipulation and assembly of such complex microsystems. From the state-of-the-art, integration technologies for heterogeneous microsystems are based on Microrobotics or Self-assembly approaches.
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4M conference 2010
Co-organized by FEMTO-ST, 4 M conference will take place in Oyonnax (France) from November 17th to 19th.
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d-MEMS 2010 – Besançon June 28-29th
FEMTO-ST and LIFC organize the 1 st workshop on design, control & software implementation for distributed MEMS
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Vehicular Power Propulsion Conference - Lille 2010
FEMTO-ST co-organize The 2010 IEEE Vehicle Power and Propulsion Conference (VPPC) in Lille
For more informations : http://vppc2010.univ-lille1.fr/
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Conference 'Seizing the Opportunity in Nano-Photonics'
A conference concerning Photonics will take place in FEMTO-ST on Friday 3rd of April at 2pm.
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Best Poster Award: Younes Makoudi@Elecmol08
Younes Makoudi, PhD@FEMTO-ST, won the best poster award during the Elecmol08 international conference in Grenoble on December 12 (www.elecmol.com). The aim of his work is the adsorption of functional molecules on surfaces which plays a vital role in the emerging field of nanoelectronics.
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The Nanosciences group selected by Omicron for their Result of the Month
Omicron, a private company that manufactures surface tunneling microscopes (STM), has selected a paper of the Nanosciences group that recently appeared in Physical Review Letters as its Result of the Month for October 2008.
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Clinical Proteomics in Oncology
The French Institute of Cancer (Canceropole Grand-Est) and the CLIPP Proteomic Platform (Dijon, Besançon) organize the 2nd international conference entitled "Clinical Proteomics in Oncology" in Dijon (France) on July 3rd and 4th , 2008.
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