Add to ORKGElectrochemical biosensors have extremely robust applications while offering ease of preparation, miniaturization, and tunability. By adjusting the arrangement and properties of immobilized probes on the sensor surface to optimize target-probe association, one can design highly sensitive and efficient sensors. In electrochemical nucleic acid biosensors, a self-assembled monolayer (SAM) is widely used as a tunable surface with inserted DNA or RNA probes to detect target sequences. The effects of inhomogeneous probe distribution across surfaces are difficult to study experimentally due to inadequate resolution. Regions of high probe density may inhibit hybridization with targets, and the magnitude of the effect may vary depending on the hybri...
Nanografted monolayers (NAMs) of DNA, show novel physico-chemical properties, that make them ideally...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
AbstractDNA microarrays have been widely adopted by the scientific community for a variety of applic...
A central question in DNA biosensors is how the surface structure impact the molecular recognition, ...
Hybridization of complementary single strands of DNA represents a very effective natural molecular r...
Hybridization of surface-immobilized oligonucleotides to their complementary counterparts is central...
Binding or hybridization between either two complementary DNA molecules, DNA/RNA or DNA/protein is n...
The nanoscale arrangement of the DNA probe molecules on sensor surfaces has a profound impact on mol...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
We demonstrate that, contrary to current understanding, the density of probe molecules is not respon...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
The ability to generate precisely designed molecular networks and modulate the surrounding environme...
DNA surface-hybridization biosensors utilize the selective hybridization of target sequences in solu...
High-density monolayers (HDMs) of single-strand (ss) DNA are important nanoscale platforms for the f...
The accessibility and binding affinity of DNA are two key parameters affecting the hybridization eff...
Nanografted monolayers (NAMs) of DNA, show novel physico-chemical properties, that make them ideally...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
AbstractDNA microarrays have been widely adopted by the scientific community for a variety of applic...
A central question in DNA biosensors is how the surface structure impact the molecular recognition, ...
Hybridization of complementary single strands of DNA represents a very effective natural molecular r...
Hybridization of surface-immobilized oligonucleotides to their complementary counterparts is central...
Binding or hybridization between either two complementary DNA molecules, DNA/RNA or DNA/protein is n...
The nanoscale arrangement of the DNA probe molecules on sensor surfaces has a profound impact on mol...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
We demonstrate that, contrary to current understanding, the density of probe molecules is not respon...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
The ability to generate precisely designed molecular networks and modulate the surrounding environme...
DNA surface-hybridization biosensors utilize the selective hybridization of target sequences in solu...
High-density monolayers (HDMs) of single-strand (ss) DNA are important nanoscale platforms for the f...
The accessibility and binding affinity of DNA are two key parameters affecting the hybridization eff...
Nanografted monolayers (NAMs) of DNA, show novel physico-chemical properties, that make them ideally...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
AbstractDNA microarrays have been widely adopted by the scientific community for a variety of applic...