Saturday, 23 November 2024

Key Notes

Ki-Bum KIM - Korea Nano Technology Research Society, Korea

Recent progresses in slid-state nanopore and its application in biomolecule detection

Back to Key Notes List

Sep 22
08:30 - 09:15

The nanopore device using nanometer scale pore either inserted or formed in the membrane which provides the only passage of the matter from the cis- and trans-chambers has been widely utilized in detecting biomolecules in a single molecule basis, with an ultimate goal of sequencing DNA in a single molecule basis. While there has been much progress in application of solid state nanopore devices, there still remain many important limitations for the practical application of this technology in biomolecule sensing. These includes, (a) high noise level of the present device, (b) need to find a method to control the translocation speed, (c) thick sensing zone, namely thick membrane thickness, (d) need a method to improve the capture rate, (e) the necessity of developing fast sensing instrument, for instance. Recently, we reported a new method of forming solid-state nanopore device which guarantees an extremely low noise (less than 10 pA) by fabricating device on pyrex substrate not on Si substrate. This device is also immune to optical pumping due to the large band gap of dielectric substrate. Therefore, concomitant measurement of electrical and optical sensing is now become possible. The impact of using low noise device in enhancing the signal-to-noise level will be demonstrated by few examples.

 

, 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.