Thursday, 28 November 2024

 

NanoInnovation 2016 - The Story


(the file video is available under the download menu)

 

TS.VIII.E.1

3D micro and nanostructuration of chemical and biological sensors

Stefano STASSI, Politecnico di Torino

The goal of fabricating portable biological and chemical sensors as low cost and low power alternative to the classical laboratory benchmark analyzers has received a huge boost with the development of micro- and nanotechnology of the last twenty years. Among the several physical sensors proposed in the literature, resonant devices based on frequency variation induced by mass adsorption have demonstrated elevate sensitivity and resolution. Classical silicon microcantilevers have been improved by a 3D micro and nanostructuration of the mechanical oscillator. 3D printing of microcantilever arrays has been used to fabricate ready-to-use chemical and biosensors with tunable properties depending on the resin composition, strongly decreasing cost and process time.  3D nanostructured sensors have been prepared with a bottom-up approach based on integration with high surface area structures (i.e. nanowires, mesoporous silica) to increase the mass sensitivity or fabrication of embedded micro and nanochannels for detection of nanoparticles in liquid environment.

 
Back to TS.VIII.E

, 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.