Thursday, 28 November 2024

 

NanoInnovation 2016 - The Story


(the file video is available under the download menu)

 

Key Notes

Sebastiano RAVESI - STMicroelectronics, Italy

Fabrication of Smart Systems on Flexible Substrates Enabled by Graphene Integration

Back to Key Notes List

Sep 22
14:15 - 15:00

The marvelous chemical and physical properties of graphene and graphene related 2D materials make them as very promising candidates to enable the fabrication of new electronics products in the realm on More than Moore. The ideal combination of mechanical, chemical and electronics features could allow the development of integrated smart systems on flexible and foldable substrates to exploit in the pervasive applications related to IoT and wearable electronics.

In the framework of EC funded Graphene Flagship, together with our partners, we have developed a graphene based technological platform with many different components available that can be integrated to fabricate smart systems, as a sensor node in which many of the system functions can benefit from the graphene use. Graphene based chemical, bio, strain, temperature sensors have been developed, and graphene based material has been used for antennas, for communication, and energy harvesting and storage, while the high level functions, signal processing and radio chip, have been delegated to standard Si based technologies. Demonstrators have been fabricated using Si on flex and flex on flex approach. A manufacturing hybrid approach has been adopted also at component level and different techniques have been used, such as printing, lithography, CVD graphene, solution based graphene and so on, in order to tailor the right cost vs performance trade off.

 

, SCIENTIFIC PATRONAGE

 


  NANOINNOVATION'S GOT TALENT

 
call for young researchers
by BRACCO FOUNDATION

 

 

, INSTITUTIONAL PATRONAGE





  INSTITUTIONAL PARTNERS

 

    

 

  CORPORATE PARTNERS

     

 

Technical Support

Privacy

Organizing Secretariat

Dr. Cristina Gippa

+ 39 339 771 4107
+ 39 388 1785318
This email address is being protected from spambots. You need JavaScript enabled to view it.

Dr. Federica Lodato

+ 39 335 7253927
+ 39   06 8848831
This email address is being protected from spambots. You need JavaScript enabled to view it.