Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/94472/1/elps4443.pd
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Over the last five years, solid state nanopore technology advanced to rival biological pores as a pl...
AbstractWe have previously demonstrated that a nanometer-diameter pore in a nanometer-thick metal-ox...
AbstractWe study theoretically the feasibility of using transverse electronic transport within a nan...
ABSTRACT: A high-throughput fabrication of sub-10 nm nanogap electrodes combined with solid-state na...
178 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Lastly, we describe using a n...
The genetic information carriers, DNA molecules can be thought of as the blueprints of living organ...
The pursuit of inexpensive DNA sequencing lies at the interface between nanotechnology and biotechno...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
Ionic signal amplification is a key challenge for single-molecule analyses by solid-state nanopore s...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Nanopores could potentially be used to perform single-molecule DNA sequencing at low cost and with h...
Nanopores have been explored with the goal of achieving non-functionalized, sub-molecular sensors, p...
The direct characterization, detection, and identification of single nucleic acid molecules can revo...
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Over the last five years, solid state nanopore technology advanced to rival biological pores as a pl...
AbstractWe have previously demonstrated that a nanometer-diameter pore in a nanometer-thick metal-ox...
AbstractWe study theoretically the feasibility of using transverse electronic transport within a nan...
ABSTRACT: A high-throughput fabrication of sub-10 nm nanogap electrodes combined with solid-state na...
178 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Lastly, we describe using a n...
The genetic information carriers, DNA molecules can be thought of as the blueprints of living organ...
The pursuit of inexpensive DNA sequencing lies at the interface between nanotechnology and biotechno...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
Ionic signal amplification is a key challenge for single-molecule analyses by solid-state nanopore s...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Nanopores could potentially be used to perform single-molecule DNA sequencing at low cost and with h...
Nanopores have been explored with the goal of achieving non-functionalized, sub-molecular sensors, p...
The direct characterization, detection, and identification of single nucleic acid molecules can revo...
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Over the last five years, solid state nanopore technology advanced to rival biological pores as a pl...
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