Graphene and Nanomaterials
Green Energy Materials and Systems
Synthesis of plasmonic nanomaterials
Nanophysics, 2D materials
Photoelectrochemical water splitting, Solar-driven waste valorization and generation of valuable chemicals, Oxide semiconductors for energy conversion applications, Transport phenomena in solar-driven chemical conversion devices
Nanomaterials, Nanocatalysis, Organocatalysis, Photocatalysis, Electrocatalysis, Photoelectrocatalysis, Water Splitting, H2 Energy and Gas Sensing
Nanophysics, Graphene, Bio-Nanomaterials, Tissue Engineering
Nanomaterials, Composite Materials, Energy harvesting, Photovoltaics, Flexible Electronics
Novel Approaches in Organic Synthesis, Synthesis of Peptides and Cyclopeptides and investigation of their Structure
Energy Materials, Corrosion, Surface Engineering, Electrochemistry
Polymer Chemistry; Semiconductor materials; Energy conversion devices; Halide Perovskite; Polyimides
Electrochemistry for Energy and Environment
Energy Storage, Sustainable material, Polymer gel electrolyte, Supercapacitors
Nanofluidics modeling and simulation, Modeling bio-membranes, Classical Monte Carlo and Quantum Monte Carlo calculations
Nanofluids, Nanocatalyst, Nanoadsorbent, Gas Separation and Storage
Optoelectronic applications of semiconductors, including the development of solar cells, LEDs, and Sensors, Optical Data Communications and Medicine
Inorganic Chemistry, Applied Chemistry, Materials Chemistry, DFT computations, MD Simulations
Nanostructured Polymers, Nanocomposites, 4D Printing, Printed Thermoelectrics
Graphene-related compounds. Inorganic pigments.