<em>PADUA</em>

The seat carries out research and technology transfer in different areas of chemistry, materials and energetics

VISIT

PADUA PADUA
Headquarter

<em>MILAN</em>

Research activity in Milan concerns the properties and technology of structural and functional materials, fluid dynamics, and diagnostics or reactive systems.

VISIT

MILAN MILAN
Organizative Unit

<em>GENOA</em>

ICMATE-Genoa has expertise in the fields of physical chemistry of interfaces and in the preparation of powders, ceramics and composites of functional oxides.

VISIT

GENOA GENOA
Organizative Unit

<em>LECCO</em>

ICMATE-Lecco is one of the few centers in Italy able to operate in the secondary metallurgy of advanced metallic materials

VISIT

LECCO LECCO
Organizative Unit

The activity is focused on the interfacial properties of complex systems in presence of surfactants and solid micro-nanoparticles.

Learn more

The research activity focuses on the characterisation and physico-chemical modelling of liquid-air and liquid-liquid interfaces in the presence of surfactant and other anphiphilic species, in relation to basic and applicative aspects.

Learn more

Synthesis of Metallic Nano-particles (Au, Pt) stabilized with organic capping molecules (tetraoctylamonium bromide) to prepare self-assembled hybrid systems with thiophene and pyrrole-based oligomers and polymers, properly functionalized. The materials organized in thin films through layer-by-layer are employed for Opto-Electronic applications and in Direct-Methanol Fuel-Cells.

Learn more

The focus of the activity is on the preparation of powders, ceramics and composites of functional oxides and, in particular, transition metal oxides and perovskites such as BaTiO3, SrTiO3, and related compounds.

Learn more

Alloy design method which consists of theoretical analysis and experimental examination has been /is applied to develop three class of alloy systems, i.e. new Pb-free solders, alloy catalysts and biomedical alloys by using nanoparticles (NPs).

Learn more

The research activity concerns the development and application of optical/spectroscopic techniques for chemical and morphological characterization of nanoparticles in aerosols.
The following techniques are currently used:

  • Laser-Induced Incandescence (LII)
  • Laser-Induced Breakdown Spettroscopy (LIBS)

Learn more

The research activity focuses on the characterisation and physico-chemical modelling of liquid-air and liquid-liquid interfaces in the presence of surfactant and other anphiphilic species, in relation to basic and applicative aspects.

Alloy design method which consists of theoretical analysis and experimental examination has been /is applied to develop three class of alloy systems, i.e. new Pb-free solders, alloy catalysts and biomedical alloys by using nanoparticles (NPs).

Synthesis of Metallic Nano-particles (Au, Pt) stabilized with organic capping molecules (tetraoctylamonium bromide) to prepare self-assembled hybrid systems with thiophene and pyrrole-based oligomers and polymers, properly functionalized. The materials organized in thin films through layer-by-layer are employed for Opto-Electronic applications and in Direct-Methanol Fuel-Cells.

The activity is focused on the interfacial properties of complex systems in presence of surfactants and solid micro-nanoparticles.