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de Abajo, F.J.G. & Kociak, M. Electron energy-gain spectroscopy. New Journal Of Physics 10, 073035 (2008). Download: New J. Phys. 2008 García de Abajo.pdf (913.65 KB)
de Abajo, F.J.G., Asenjo-Garcia, A. & Kociak, M. Multiphoton Absorption and Emission by Interaction of Swift Electrons with Evanescent Light Fields. Nano Letters 10, 1859–1863 (2010).
de Abajo, F.J.G. & Kociak, M. Probing the Photonic Local Density of States with Electron Energy Loss Spectroscopy. Physical Review Letters 100, 106804 (2008). Download: Phys. Rev. Lett. 2008 García de Abajo.pdf (540.82 KB)
ACHECHE, M., Colliex, C. & TREBBIA, P. Characterization Of Small Metallic Clusters By Electron-Energy Loss Spectroscopy. Scanning Electron Microscopy 25–32 (1986).
ACHECHE, M., Colliex, C., KOHL, H., NOURTIER, A. & TREBBIA, P. Theoretical And Experimental-Study Of Plasmon Excitations In Small Metallic Spheres. Ultramicroscopy 20, 99–105 (1986).
ACHECHE, M., Colliex, C., KOHL, H., TREBBIA, P. & VANDEWALL, J. Surface And Volume Plasmons In Small Metallic Spheres. Journal De Microscopie Et De Spectroscopie Electroniques 9, A44–A44 (1984).
Ajayan, P.M., et al. Growth Of Manganese Filled Carbon Nanofibers In The Vapor-Phase. Physical Review Letters 72, 1722–1725 (1994).
Ajayan, P.M., Colliex, C., Bernier, P. & Lambert, J.M. Shape Transformations In Single-Layer Carbon Nanotubes. Microscopy Microanalysis Microstructures 4, 501–504 (1993).
Ajayan, P.M., Stéphan, O., Colliex, C. & TRAUTH, D. Aligned Carbon Nanotube Arrays Formed By Cutting A Polymer Resin-Nanotube Composite. Science 265, 1212–1214 (1994).
Ajayan, P.M., et al. Growth Morphologies During Cobalt-Catalyzed Single-Shell Carbon Nanotube Synthesis. Chemical Physics Letters 215, 509–517 (1993).
Ajayan, P.M., Stéphan, O., REDLICH, P. & Colliex, C. Carbon Nanotubes As Removable Templates For Metal-Oxide Nanocomposites And Nanostructures. Nature 375, 564–567 (1995).
AlarioFranco, M.A., et al. The Superconducting Copper/Carbonate Cuprates - An Electron-Microscopy Study. Physica C 231, 103–108 (1994).
Aloisi, G., et al. Nucleation of calcium carbonate on bacterial nanoglobules. Geology 34, 1017–1020 (2006).
Amato, M., Palummo, M. & Ossicini, S. Segregation, quantum confinement effect and band offset for 110 SiGe NWs. Physica Status Solidi B-Basic Solid State Physics 247, 2096-2101 (2010).
Amato, M., Palummo, M. & Ossicini, S. SiGe nanowires: Structural stability, quantum confinement, and electronic properties. Physical Review B 80, (2009).
Amato, M., Ossicini, S., Canadell, E. & Rurali, R. Preferential positioning, stability and segregation of dopants in hexagonal Si nanowires. Nano letters (2019).doi:10.1021/acs.nanolett.8b04083
Amato, M., Palummo, M., Rurali, R. & Ossicini, S. Silicon-Germanium Nanowires: Chemistry and Physics in Play, from Basic Principles to Advanced Applications. Chemical Reviews 114, 1371-1412 (2014).
Amato, M., Rurali, R., Palummo, M. & Ossicini, S. Understanding doping at the nanoscale: the case of codoped Si and Ge nanowires. Journal of Physics D-Applied Physics 47, (2014).
Amato, M., Ossicini, S. & Rurali, R. Electron Transport in SiGe Alloy Nanowires in the Ballistic Regime from First-Principles. Nano Letters 12, 2717-2721 (2012).
Amato, M., Palummo, M., Rurali, R. & Ossicini, S. Optical absorption modulation by selective codoping of SiGe core-shell nanowires. Journal of Applied Physics 112, (2012).
Amato, M., Palummo, M. & Ossicini, S. Reduced quantum confinement effect and electron-hole separation in SiGe nanowires. Physical Review B 79, (2009).
Amato, M., Rurali, R. & Ossicini, S. Doping of SiGe core-shell nanowires. Journal of Computational Electronics 11, 272-279 (2012).
Amato, M., Kaewmaraya, T., Zobelli, A., Palummo, M. & Rurali, R. Crystal Phase Effects in Si Nanowire Polytypes and Their Homojunctions. Nano Letters 16, 5694–5700 (2016).
Amato, M., Ossicini, S. & Rurali, R. Band-Offset Driven Efficiency of the Doping of SiGe Core-Shell Nanowires. Nano Letters 11, 594-598 (2011).
Amato, M., Palummo, M. & Ossicini, S. Band structure analysis in SiGe nanowires. Materials Science and Engineering B-Advanced Functional Solid-State Materials 177, 705-711 (2012).
Amato, M. & Rurali, R. Surface physics of semiconducting nanowires. Progress in Surface Science 91, 1-28 (2016).
Amato, M., Kaewmaraya, T. & Zobelli, A. Extrinsic Doping in Group IV Hexagonal-Diamond-Type Crystals. The Journal of Physical Chemistry C (2020).doi:10.1021/acs.jpcc.0c03713
Amato, M., Bertocchi, M. & Ossicini, S. Work function bowing in Si1-xGex heterostructures: Ab initio results. Journal of Applied Physics 119, (2016).
Arbouet, A., et al. Observer la matière à l’échelle du nanomètre et de la femtoseconde : la microscopie électronique en transmission ultrarapide. Photoniques 26 - 30 (2020).doi:10.1051/photon/202010226 Download: 
Arenal, R., Stéphan, O., Bruno, P. & Gruen, D.M. Spatially resolved electron energy loss spectroscopy on n-type ultrananocrystalline diamond films. Applied Physics Letters 94, 111905 (2009).
Arenal, R., Kociak, M. & Zaluzec, N.J. High-angular-resolution electron energy loss spectroscopy of hexagonal boron nitride. Applied Physics Letters 90, 204105 (2007).
Arenal, R., et al. EELS measurements in single wall Boron nitride nanotubes. Electronic Properties Of Synthetic Nanostructures 723, 293–297 (2004).
Arenal, R., Kociak, M., Loiseau, A. & Miller, D.J. Determination of chiral indices of individual single- and double-walled boron nitride nanotubes by electron diffraction. Applied Physics Letters 89, 073104 (2006). Download: Appl. Phys. Lett. 2006 Arenal.pdf (271.38 KB)
Arenal, R., et al. Atomic Configuration of Nitrogen-Doped Single-Walled Carbon Nanotubes. Nano Letters 14, 5509 - 5516 (2014).
Arenal, R., et al. Optical gap measurements on individual boron nitride nanotubes by electron energy loss spectroscopy. Microscopy And Microanalysis 14, 274–282 (2008).
Backhaus-Ricoult, M., Samet, L., Trichet, M.F., Hytch, M.J. & Imhoff, D. Interfacial chemistry in internally oxidized (Cu,Mg)-alloys. Journal Of Solid State Chemistry 173, 172–188 (2003).
Backhaus-Ricoult, M., et al. Oxygen enrichment of the interface MgO-Cu{001}//{001}. Journal De Physique Iv 9, 13–19 (1999).
Backhaus-Ricoult, M., Samet, L., Thomas, M., Trichet, M.F. & Imhoff, D. Changes in Cu-silica interfacial chemistry with oxygen chemical potential. Acta Materialia 50, 4191–4204 (2002).
Balcells, L., et al. Enhanced conduction and ferromagnetic order at (100)-type twin walls in. Physical Review B 92, (2015).