Technologies

In this section it is possible to view, also through targeted research, the technologies inserted in the PROMO-TT Database. For further information on the technologies and to contact the CNR Research Teams who developed them, it is necessary to contact the Project Manager (see the references at the bottom of each record card).

Displaying results 1 - 2 of 2

Non-destructive identification of cracks and defects in insulating elements of electrically polarized devices using weakly ionized plasma

# Record card
291
Description

The proposed technology offers a novel and versatile method for detecting cracks in insulating materials of electrically polarized metal devices, i.e. dielectric coatings on metals, especially in low-pressure gas environments. It uses an ionized plasma that interacts uniformly with the insulating surface, allowing to detect defects invisible to the naked eye. The detection occurs in a single test without changing the environmental conditions and without risking harmful electrical discharges.

Thematic areas
Materials / Properties of materials, corrosion, degradation
Materials / Processes of production & treatment of materials
Materials / Photo-active & graphene-based materials
Materials / Semiconductors and Superconductors
ICT & Electronics / Nanotechnologies related to electronics and microelectronics
Chemicals & Physics / Inorganic substances
Additive and advanced industrial manufacturing / Vacuum/High vacuum technologies
ICT & Electronics / Electronics and microelectronics
Materials / Metals & alloys
Chemicals & Physics / Cold Plasmas
Energy and environmental sustainability / Nuclear fission/nuclear fusion
Materials / Ceramic materials

Printable thermochromic polymer composite based on hybrid perovskite

# Record card
184
Description

We developed an hybrid organic-inorganic composite consisting of a 2D perovskite and a copolymer. At room temperature the composite is highly transparent in the visible region with transmittance > 90%. At higher temperatures, the movement of the polymer chains releases the precursors, allowing the perovskite formation, which results in a colored film. The color changes according to the ‘n’ value of the PVK. PVK with n=1 starts coloring at 70°C, achieving a ∆Tmax = 91.5% at 510 nm.

Thematic areas
ICT & Electronics
ICT & Electronics / Sensor/multi-sensor technology, instrumentation
ICT & Electronics / Nanotechnologies related to electronics and microelectronics
Energy and environmental sustainability
Energy and environmental sustainability / Rational use of energy
Materials
Materials / Composite and hybrid materials