A

AR Hall

11 records found

Most experiments on nanopores have concentrated on the pore-forming protein ¿-haemolysin (¿HL)1 and on artificial pores in solid-state membranes2. While biological pores offer an atomically precise structure3 and the potential for genetic engineering4, solid-state nanopores offer ...
Solid-state nanopores are considered a promising tool for the study of biological polymers such as DNA and RNA, due largely to their flexibility in size, potential in device integration and robustness. Here, we show that the precise shape of small nanopores (~5 nm diameter in 20 ...
Nanopores have been successfully employed as a new tool to rapidly detect single biopolymers, in particular DNA. When a molecule is driven through a nanopore by an externally applied electric field, it causes a characteristic temporary change in the trans-pore current. Here, we e ...