<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

Preparation of electrocatalysts and modified foams

Electrodeposition and modification of compact or porous (nano- and micro-structured) metals and alloys to obtain high surface electrodes for applications in catalysis and sensors.

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Electrochemical preparation of catalysts for gas phase reactions

3D catalytic systems obtained through the deposition of Pd, Pt or Rh nanoparticles onto Ni or Fe-Cr-Al alloy foams are effective toward both electrochemical processes and gas phase oxidation reactions.

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Recovery and recycling of lead batteries component materials

Recovery and recycling of lead batteries: aim of this activity is to optimize recovery procedures of several type of lead batteries components (used, fresh, exhausted and refurbished oxides and pastels), to test the properties and optimise the recycling procedures.

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Electrodeposition and modification of compact or porous (nano- and micro-structured) metals and alloys to obtain high surface electrodes for applications in catalysis and sensors.

Recovery and recycling of lead batteries: aim of this activity is to optimize recovery procedures of several type of lead batteries components (used, fresh, exhausted and refurbished oxides and pastels), to test the properties and optimise the recycling procedures.

3D catalytic systems obtained through the deposition of Pd, Pt or Rh nanoparticles onto Ni or Fe-Cr-Al alloy foams are effective toward both electrochemical processes and gas phase oxidation reactions.