The nanoscale arrangement of the DNA probe molecules on sensor surfaces has a profound impact on molecular recognition and signaling reactions on DNA biosensors and microarrays. Using electrochemical atomic force microscopy, we have directly determined the nanoscale spatial distribution of thiolated DNA that are attached to gold <i>via</i> different methods. We discovered significant heterogeneity in the probe density and limited stability for DNA monolayers prepared by the backfilling method, that is, first exposing the surface to thiolated DNA then “backfilling” with a passivating alkanethiol. On the other hand, the monolayers prepared by “inserting” thiolated DNA into a preformed alkanethiol monolayer lead to a more uniformly distributed...
distributed DNA oligomer arrays on Au(111) surfaces were created by one-step co-assembly of mixed mo...
Hybridization of surface-immobilized oligonucleotides to their complementary counterparts is central...
Advances in molecular engineering have enabled the formation of increasingly sophisticated molecular...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
A central question in DNA biosensors is how the surface structure impact the molecular recognition, ...
Despite the variety of nucleic acid sensors developed, we still do not have definite answers to some...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
Electrochemical biosensors have extremely robust applications while offering ease of preparation, mi...
DNA-modified surfaces have been widely studied for microarray and biosensor applications, in particu...
We demonstrate that, contrary to current understanding, the density of probe molecules is not respon...
Controlling conformational and mechanical properties of single-stranded DNA (ssDNA) nanobrushes is c...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Deoxyribonucleic acid (DNA) self-assembled monolayers (SAMs) immobilized on gold electrodes are the ...
The lambda-DNA molecules self-assemble on cysteamine-modified gold (111) surface to form flat-lying ...
distributed DNA oligomer arrays on Au(111) surfaces were created by one-step co-assembly of mixed mo...
Hybridization of surface-immobilized oligonucleotides to their complementary counterparts is central...
Advances in molecular engineering have enabled the formation of increasingly sophisticated molecular...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
A central question in DNA biosensors is how the surface structure impact the molecular recognition, ...
Despite the variety of nucleic acid sensors developed, we still do not have definite answers to some...
The spatial arrangement of target and probe molecules on the biosensor is a key aspect of the bioint...
Electrochemical biosensors have extremely robust applications while offering ease of preparation, mi...
DNA-modified surfaces have been widely studied for microarray and biosensor applications, in particu...
We demonstrate that, contrary to current understanding, the density of probe molecules is not respon...
Controlling conformational and mechanical properties of single-stranded DNA (ssDNA) nanobrushes is c...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Deoxyribonucleic acid (DNA) self-assembled monolayers (SAMs) immobilized on gold electrodes are the ...
The lambda-DNA molecules self-assemble on cysteamine-modified gold (111) surface to form flat-lying ...
distributed DNA oligomer arrays on Au(111) surfaces were created by one-step co-assembly of mixed mo...
Hybridization of surface-immobilized oligonucleotides to their complementary counterparts is central...
Advances in molecular engineering have enabled the formation of increasingly sophisticated molecular...