• Semiconductor Nanostructures (Quantum Dots, Metal Oxide Materials)
  • Properties of Organic & Molecular Semiconductors
  • Light Emitting Diodes (QD-LED, O-LED, Perovskite-LED)
  • Printed photovoltaic devices (Perovskites)
  • Flexible, stretchable and transparent electronics
  • Thin film growth and characterization techniques.
  • Electronic materials and devices.
  • Complex functional oxide heterostructures and interface.
  • Ferroelectric/Multiferroic tunnel junctions.
  • Study of electronic and atomic structure of nanomaterials and thinfilms
  • X-ray spectroscopy and applications
  • Materials growth and device fabrication
  • Metal, Semiconductor and Magnetic Nanostructures
  • Core-shell Nanomaterials
  • Functional Hybrid Nanomaterials
  • Experimental high energy nuclear physics
  • Phase Diagram of Quantum Chromodynamics
  • Properties of matter in the Quark-Gluon Plasma / Hadronic phases
  • Phenomenology of Relativistic Heavy Ion Collisions, e.g., collective phenomena, flavor dynamics (non-strange vs strange / light vs heavy)