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 - 4 of 4

# Record card
239
Description

Bivalve mollusc shells are made mainly of CaCO3 (ca 95%), with a small fraction of organic material. If from these shells this mineral is retrieved, they could become a renewable and sustainable “mine” of a “blue” CaCO3. Bivalve mollusc shells, also after the removal of the animal flesh, maintain a certain quantity of organic substances, part in the muscle and part in the shell.

Thematic areas
Bioeconomy
Energy and environmental sustainability
Energy and environmental sustainability / Renewable sources
Health & Biotech
Health & Biotech / Care, Hygiene, Cosmetics
Energy and environmental sustainability / Waste management
Additive and advanced industrial manufacturing
Energy and environmental sustainability / Pollution treatment (air, soil, water)
Chemicals & Physics
Chemicals & Physics / Inorganic substances
Additive and advanced industrial manufacturing / Additive manufacturing processes and materials
Materials
Materials / Ceramic materials
Chemicals & Physics / Subtainable substances and green chemistry
Materials / Paper technology
Materials / Plastics, polymers
# Record card
171
Description

B-ME developed the first thermoplastic composite electrode film based on bio-derived and biodegradable polyesters and carbon nano-fibers. It is metal-free, highly electrically conductive and possess good thermo-mechanical properties, a challenging combination of three features in a single product. This is the first-of-its-kind product, as, to the best of our knowledge, no thermoplastic biobased electrode film has been effectively produced and used so far.

Thematic areas
ICT & Electronics
ICT & Electronics / Sensor/multi-sensor technology, instrumentation
ICT & Electronics / Internet of Things
ICT & Electronics / Nanotechnologies related to electronics and microelectronics
ICT & Electronics / Electronics and microelectronics
Bioeconomy
Materials
Materials / Photo-active & graphene-based materials
Materials / Semiconductors and Superconductors
Materials / Composite and hybrid materials
Materials / Plastics, polymers
Chemicals & Physics
Chemicals & Physics / Micro and nanotechnology related to physical, chemical and exact sciences
Chemicals & Physics / Plastics & rubber
Chemicals & Physics / Special chemicals
Energy and environmental sustainability
Energy and environmental sustainability / Renewable sources
Energy and environmental sustainability / Energy storage and transport
Energy and environmental sustainability / Energy production, transmission and conversion
Energy and environmental sustainability / Pollution treatment (air, soil, water)
Energy and environmental sustainability / Environmental engineering/technologies
Energy and environmental sustainability / Wearable technologies
Energy and environmental sustainability / Sensory
Additive and advanced industrial manufacturing
Additive and advanced industrial manufacturing / Additive manufacturing processes and materials
# Record card
56
Description

Mirrors for space applications, besides featuring suitable optical properties, should be light, resistant to mechanical stresses, and unsensitive to light-shadow thermal cycling. The standard optical materials easily fulfill optical and thermal requirements, but are fragile, and the mirrors must be thick (typically 1/6 of the diameter). For this reason they are heavy, and the only available solution is to lighten them, by removing material from the back side, still preserving the necessary mechanical robustness and optical quality.

Thematic areas
Aerospace and Earth Science / Aeronautical technologies and avionics
Aerospace and Earth Science / Satellite technologies
Additive and advanced industrial manufacturing / Additive manufacturing processes and materials
Materials / Composite and hybrid materials
Materials / Optical materials
# Record card
74
Description

The object of the technology is the development of a transferable methodology from the laboratory scale to the pilot scale to be validated in the industrial setting for the treatment of basic waste of natural polymers of agro-food or manufacturing industry.

Thematic areas
Materials / Properties of materials, corrosion, degradation
Additive and advanced industrial manufacturing / Packaging
Energy and environmental sustainability / Renewable sources
Chemicals & Physics / Plastics & rubber
Chemicals & Physics / Subtainable substances and green chemistry
Energy and environmental sustainability / Waste management
Bioeconomy