Research

I have worked in several different branches of nanotechnology from 2009. During my master thesis, I worked with quantum electronics and molecular nanofabrication. During my PhD, I worked with additive and subtractive nanafabrication process. My research interest includes

  • Nanoelectronics
  • Nanofabrication
  • Nanoplasmonics
  • Quantum Electronics
  • Molecular Electronics
  • Nanomagnet Logic
  • Noble metal nanostructures
  • Semiconductor nanowire

Research Projects

  • NanoPlasmoMechanical Systems (PLASMECS)

    NanoPlasmoMechanical Systems (PLASMECS)

    European Research Council Project

    Working as a Post-doctoral Researcher in a ERC funded project under the supervision of Prof. Silvan Schmid who received ERC Starting Grant.

    PLASMECS

  • Chemistry for ELectron-Induced NAnofabrication (CELINA)

    Chemistry for ELectron-Induced NAnofabrication (CELINA)

    Cost Action CM1301: European Cooperation in Science and Technology

    Working Group 3 – Application of novel precursors in the FEBID process

    CELINA

  • Crystal structure Preserving Electron-Beam Etching for Ge-Nanodevices

    Crystal structure Preserving Electron-Beam Etching for Ge-Nanodevices

    Austrian Science Fund Project

    The project had two objectives: i) understanding & optimizing the electron beam induced etch process of germanium semiconductors and ii) develop Ge-based semiconductor devices

  • Electron Beam Induced Processing (EBIP) of nanostructures

    Electron Beam Induced Processing (EBIP) of nanostructures

    ENHANCE: Marie Curie Initial Training Network

    The method of focused electron beam induced processing (FEBIP) provides a direct and flexible approach to nanofabrication. Deposition and etching processes are promoted through the decomposition of reactive gas molecules adsorbed on the substrate via the electron beam. This method is used for circuit repair, mask modification, 3D-NEMS nanostructures. Etching processes locally promoted by e-beam permit to modify nanostructures, such as nanowires, which lead to a controlled alteration of their properties.

    Apart from that received advanced training on Focused Electron Beam Induced Processing (FEBIP), Scanning Electron Microscope (SEM), Atomic/Magnetic Force Microscope (AFM/MFM), Electron Beam Lithography, Energy-dispersive X-ray spectroscopy (EDX), Transmission Electron Microscope (TEM) etc.

    ENHANCE Website

  • Characterizing and Simulating Advanced devices towards high efficiency 10nm MOSFETS

    Characterizing and Simulating Advanced devices towards high efficiency 10nm MOSFETS

    FNRS Research Project

    Characterized Silicon-on-Insulator (SOI) transistors for high efficiency nanodevices.

  • Investigation of Different Techniques for Nanoparticles Bridging

    Investigation of Different Techniques for Nanoparticles Bridging

    Internship Research Project

  • Electron interferometer investigation for coherent electron transport in organic molecules.

    Electron interferometer investigation for coherent electron transport in organic molecules.

    Master Thesis Project

  • Pattering Metal Oxides with Self-Assembled Monolayer and Nanoparticles using Microcontact Printing and Nanoimprint Lithography

    Pattering Metal Oxides with Self-Assembled Monolayer and Nanoparticles using Microcontact Printing and Nanoimprint Lithography

    Master Lab Project at Molecular Nanofabrication Group