Add to ORKGABSTRACT We report an ab initio density functional theory study of the interaction of four nucleobases, cytosine, thymine, adenine, and guanine, with a novel graphene nanopore device for detecting the base sequence of a single-stranded nucleic acid (ssDNA or RNA). The nucleobases were inserted into a pore in a graphene nanoribbon, and the electrical current and conductance spectra were calculated as functions of voltage applied across the nanoribbon. The conductance spectra and charge densities were analyzed in the presence of each nucleobase in the graphene nanopore. The results indicate that due to significant differences in the conductance spectra the proposed device has adequate sensitivity to discriminate between different nucleotides....
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
A biosensor device, built from graphene nanoribbons (GNRs) with nanopores, was designed and studied ...
DNA sequencing witnessed significant research efforts to improve its efficiency and to reduce the pr...
Nanopore-based single-molecule detection and analysis have been pursued intensively over the past de...
Nanopore-based single-molecule detection and analysis have been pursued intensively over the past de...
Fast, cost effective, single-shot DNA sequencing could be the prelude of a new era in genetics. As D...
The feasibility of synthesizing unnatural DNA/RNA has recently been demonstrated, giving rise to new...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
DNA sequencing techniques are critical in order to investigate genes’ functions. Obtaining fa...
Devices in which a single strand of DNA is threaded through a nanopore could be used to efficiently ...
Devices in which a single strand of DNA is threaded through a nanopore could be used to efficiently ...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
A biosensor device, built from graphene nanoribbons (GNRs) with nanopores, was designed and studied ...
DNA sequencing witnessed significant research efforts to improve its efficiency and to reduce the pr...
Nanopore-based single-molecule detection and analysis have been pursued intensively over the past de...
Nanopore-based single-molecule detection and analysis have been pursued intensively over the past de...
Fast, cost effective, single-shot DNA sequencing could be the prelude of a new era in genetics. As D...
The feasibility of synthesizing unnatural DNA/RNA has recently been demonstrated, giving rise to new...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
DNA sequencing techniques are critical in order to investigate genes’ functions. Obtaining fa...
Devices in which a single strand of DNA is threaded through a nanopore could be used to efficiently ...
Devices in which a single strand of DNA is threaded through a nanopore could be used to efficiently ...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
To demonstrate the potential of nanopores in bilayer graphene for DNA sequencing, we computed the cu...
A biosensor device, built from graphene nanoribbons (GNRs) with nanopores, was designed and studied ...