Add to ORKGNanopipette technology has been proven to be a label-free biosensor capable of identifying DNA and proteins. The nanopipette can include specific recognition elements for analyte discrimination based on size, shape, and charge density. The fully electrical read-out and the ease and low-cost fabrication are unique features that give this technology an enormous potential. Unlike other biosensing platforms, nanopipettes can be precisely manipulated with submicron accuracy and used to study single cell dynamics. This review is focused on creative applications of nanopipette technology for biosensing. We highlight the potential of this technology with a particular attention to integration of this biosensor with single cell manipulation platforms
In combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipettes, we dem...
Glass or quartz nanopipettes have found increasing use as tools for studying the biophysical propert...
By combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipets, we demon...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Complex biological processes occur in the nanoscale (1-100 nm) regime. ‘DNA’ which is just 2 nm in d...
Inspired by transmembrane pores found in cell membranes and the operating principle of the Coulter c...
With the view of enhancing the functionality of label-free single molecule nanopore-based detection,...
Since the pioneering studies on single ion-channel recordings in 1976, single molecule methods have...
Nanopores have been proved to be promising analytical platforms for label-free single-molecule biose...
The boundary between the physical and biological sciences has been eroded in recent years with new p...
A comprehensive detection of a wide variety of diagnostic markers is required for the realization of...
Understanding the behavioral properties of single molecules or larger scale populations interacting ...
In combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipettes, we dem...
Glass or quartz nanopipettes have found increasing use as tools for studying the biophysical propert...
By combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipets, we demon...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Examining the behavior of a single cell within its natural environment is valuable for understanding...
Complex biological processes occur in the nanoscale (1-100 nm) regime. ‘DNA’ which is just 2 nm in d...
Inspired by transmembrane pores found in cell membranes and the operating principle of the Coulter c...
With the view of enhancing the functionality of label-free single molecule nanopore-based detection,...
Since the pioneering studies on single ion-channel recordings in 1976, single molecule methods have...
Nanopores have been proved to be promising analytical platforms for label-free single-molecule biose...
The boundary between the physical and biological sciences has been eroded in recent years with new p...
A comprehensive detection of a wide variety of diagnostic markers is required for the realization of...
Understanding the behavioral properties of single molecules or larger scale populations interacting ...
In combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipettes, we dem...
Glass or quartz nanopipettes have found increasing use as tools for studying the biophysical propert...
By combining DNA nanotechnology and high-bandwidth single-molecule detection in nanopipets, we demon...