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Speaker-Ricardo Ibarra

Ricardo Ibarra
Instituto de Nanociencia de Aragón (INA), Spain
Full professor at the Condensed Matter Physics Department at the University of Zaragoza, Director of the Institute of Nanoscience de Aragón, Director of The Laboratory of Advanced Microscopies, Director of the Foundation INA. Chairman of the Magnetism Section of the European Physical Society, President of the “Integrated Electronic Microscopy Network” (ELECMI).Doctor Honoris Causa (AGH University Krakow, Poland).
His research has been developed in Magnetism and Magnetic Materials. Along the past few years his research activity is focused on the magnetic properties of nanostructured materials and the application of nanotechnology in biomedicine.He teach Solid State Physics and currently is involved as scientific advisor and cofounder of three Spin-Off companies. He is also member of the scientific committee of several International Conferences and lead several major projects.  

Title:On the nature of the metal-graphene bonding
SymposiumA3 Other 2D Materials
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Abstract

The graphene–metal bonding is crucial for the performance of graphene-based electronic devices. Here we report a detailed study of the Raman spectroscopy and High resolution Transmission Electron Microscopy (HRTEM) to have an insight into the nature of the metallic-graphene contact. Raman spectroscopy is a powerful technique for probing the electronic behaviour of graphene–metal interfaces. The changes in the Raman spectrum of pristine graphene upon contact with standard metal layers are reported here. In particular, the study is focused on metallization by electron-beam evaporation using chromium or titanium (commonly used as an adhesion layer to improve the bonding of other metals such as gold) and nickel or cobalt (ferromagnetic materials used for spintronics). We will focus on the Co deposits. The results obtained indicate that the main changes in the Raman spectra can be explained in terms of a biaxial strain generated by graphene trying to match the crystalline lattice of the metal Fig a). HRTEM has provided evidence on the orientation of the metal crystallites crystallographic planes on the graphene layer and consequently on the possible p-d orbital hybridization (Fig. b)).

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Abstract: Minyang Lu

Sponsor: Wenyang Yang

Media: Liping Wang

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