Crystallography and analysis of materials by X-ray and electron diffraction.
Study of the structural properties of nanometric materials, one-dimensional systems, thin films and biomaterials.
Optical, thermal, electronic, mechanical and magnetic properties of materials.
Formation and characterization of thin films of conductive molecules.
Design and synthesis of transparent conductive contacts and thin films with potential applications in energy saving areas.
High mechanical performance cements with mineral nanoparticles.
Physicochemical properties of materials of biological and mineralogical origin.
Synthesis of new materials and multi-functional materials based on transition metal oxides.
Studies and applications of environmental radiation, environmental dosimetry, environmental radiological pollutants in water, air, soil and food, methodology of nuclear traces in solids, thermoluminescence, interaction of ionizing radiation with materials.
Study of nuclear electronic instrumentation and applications.
