2-D Oxide Nano-Systems: Substrate Coupling and Strain Effects

  • [2018-10-15]
    Speaker:Prof. Falko P. Netzer
    Institute of Physics, Surface and Interface Physics. Karl-Franzens University, Graz, AUSTRIA
    Time:2018-10-15 16:00
    Place:ROOM 9004, Hefei National Laboratory Building

    Detail:

    Abstract:
      Two-dimensional (2-D) transition metal oxide layers have attracted significant interest during the past decade due to their novel emergent properties and their high potential for nanotechnology applications [1]. For practical reasons 2-D oxide layers are usually supported on metal surfaces. This leads to a coupling of the oxide overlayer to the metal substrate, often strong coupling, which creates a metal-oxide hybrid system with properties that are largely determined by the oxide-metal interface. In this talk, I will discuss the role of the metal-oxide coupling in shaping the morphology and structure of two-dimensional oxide systems. Moreover, the effects of interfacial strain on the physical and chemical properties of 2-D oxide layers will be investigated. I will discuss 3 case studies: 
    W-oxide on Pd(100) [2], a system with strong oxide-metal coupling, leading to a commensurate overlayer with strong strain effects; 
    W-oxide on Ag(100), a system with weak oxide-metal coupling, leading to an incommensurate overlayer with virtually no strain; 
    Ce-oxide on Cu(110) [3], where the symmetry mismatch at the interface generates a spatially modulated strain field giving rise to a periodic pattern formation. 
    All 2-D oxide overlayers are prepared by a PVD method and are atomically characterized experimentally in a surface science approach by STM, LEED and various electron spectrocopies, as well as theoretically by extensive DFT calculations. 

    [1] Oxide materials at the two-dimensional limit. F.P. Netzer and A. Fortunelli, Eds. (Springer Series in Materials Science, Vol. 234, Springer 2016) 
    [2] N. Doudin, D. Kuhness, M. Blatnik, G. Barcaro, F.R. Negreiros, L. Sementa, A. Fortunelli, S. Surnev, F.P. Netzer, J. Phys. Chem.C 2016, 120, 28682 
    [3] L. Ma, N. Doudin, S. Surnev, G. Barcaro, L. Sementa, V. Mankad, A. Fortunelli, F.P. Netzer, J. Phys. Chem. Lett. 7(2016)1303

    Organizer:Hefei National Laboratory for Physical Sciences at the Microscale


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