Pei Pang, Brian Alan Ashcroft, et al.
ACS Nano
When analyzing biological molecules (such as DNA and proteins) transported through a nanopore sensor, the pore length limits both the sensitivity and the spatial resolution. Atomically thin as a graphene nanopore is, it is difficult to make graphene pores and the scalable-fabrication of those pores has not yet been possible. We theoretically studied a type of atomically thin nanopores that are formed by intersection of two perpendicular nano-slits. Based on theoretical analyses, we demonstrate that slit nanopores behave similarly to graphene pores and can be manufactured at a wafer scale. © 2013 AIP Publishing LLC.
Pei Pang, Brian Alan Ashcroft, et al.
ACS Nano
Binquan Luan, Kai Loon Chen, et al.
Journal of Physical Chemistry Letters
Stefan Harrer, Philip S. Waggoner, et al.
Nanotechnology
Johann Von Felden, Teresa Garcia-Lezana, et al.
Gut