Fabrication and characterization of nanopore sandwich devices for DNA kinetic proofreading studies

Zhishan Yuan; Jiajia Ye; Hongwen Wu; Xiao Xie; Qianjin Wang; Jingjie Sha; Yunfei Chen; Zhonghua Ni; Xinsheng Ling

Fabrication and characterization of nanopore sandwich devices for DNA kinetic proofreading studies

ORAL

Abstract

It has been proposed [1] that solid-state nanopores can be used as a kinetic proofreading mechanism for oligonucleotide hybridization on ssDNA molecules. We describe the first generation of nanopore sandwich structures consisted of two nanopores of different thicknesses of Si$_{3}$N$_{4}$ separated by a SiO$_{2}$ cavity. We will discuss the results of helium ion-beam and Ga FIB drilling and TEM characterization of the nanopore sandwiches devices. This work was supported by the National 1000-People Plan of China and Jiangsu-985 Fund, and NSFC grant no.51302037. [1] X.S. Ling, ``Methods of sequencing nucleic acids using nanopores and active kinetic proofreading'', WO/2013/119784, International Application No.: PCT/US2013/025106.

March 18, 2016, 8:48 AM – March 18, 2016, 9:00 AM

Authors

Zhishan Yuan
- Southeast University (Nanjing China)
Jiajia Ye
- Southeast University (Nanjing China)
Hongwen Wu
- Southeast University (Nanjing China)
Xiao Xie
- Southeast University (Nanjing China)
Qianjin Wang
- Nanjing University (Nanjing China)
Jingjie Sha
- Southeast University (Nanjing China)
Yunfei Chen
- Southeast University (Nanjing China)
Zhonghua Ni
- Southeast University (Nanjing China)
Xinsheng Ling
- Southeast University and Brown University
- Southeast University (Nanjing China) and Brown University