Add to ORKGThe base pair stack of DNA has been demonstrated as a medium for long-range charge transport chemistry both in solution and at DNA-modified surfaces. This chemistry is exquisitely sensitive to structural perturbations in the base pair stack as occur with lesions, single base mismatches, and protein binding. We have exploited this sensitivity for the development of reliable electrochemical assays based on DNA charge transport at self-assembled DNA monolayers. Here, we discuss the characteristic features, applications, and advantages of DNA-mediated electrochemistry
Molecular wires show promise in nanoscale electronics but the synthesis of uniform, long conductive ...
In electrochemistry experiments on DNA-modified electrodes, features of the redox probe that determi...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
Molecular wires show promise in nanoscale electronics but the synthesis of uniform, long conductive ...
DNA charge transport chemistry involves the migration of charge over long molecular distances throug...
The DNA double helix has captured the imagination of many, bringing it to the forefront of biologica...
The DNA double helix has captured the imagination of many, bringing it to the forefront of biologica...
The structural core of DNA, a continuous stack of aromatic heterocycles, the base pairs, which exten...
The DNA duplex is an exquisite macromolecular array that stores genetic information to encode protei...
The DNA duplex is an exquisite macromolecular array that stores genetic information to encode protei...
In electrochemistry experiments on DNA-modified electrodes, features of the redox probe that determi...
Electrochemistry of self-assembled DNA monolayers represents an attractive strategy for understandin...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
The electrochemistry of DNA films modified with different redox probes linked to DNA through saturat...
The electrochemistry of DNA films modified with different redox probes linked to DNA through saturat...
Molecular wires show promise in nanoscale electronics but the synthesis of uniform, long conductive ...
In electrochemistry experiments on DNA-modified electrodes, features of the redox probe that determi...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
Molecular wires show promise in nanoscale electronics but the synthesis of uniform, long conductive ...
DNA charge transport chemistry involves the migration of charge over long molecular distances throug...
The DNA double helix has captured the imagination of many, bringing it to the forefront of biologica...
The DNA double helix has captured the imagination of many, bringing it to the forefront of biologica...
The structural core of DNA, a continuous stack of aromatic heterocycles, the base pairs, which exten...
The DNA duplex is an exquisite macromolecular array that stores genetic information to encode protei...
The DNA duplex is an exquisite macromolecular array that stores genetic information to encode protei...
In electrochemistry experiments on DNA-modified electrodes, features of the redox probe that determi...
Electrochemistry of self-assembled DNA monolayers represents an attractive strategy for understandin...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
The electrochemistry of DNA films modified with different redox probes linked to DNA through saturat...
The electrochemistry of DNA films modified with different redox probes linked to DNA through saturat...
Molecular wires show promise in nanoscale electronics but the synthesis of uniform, long conductive ...
In electrochemistry experiments on DNA-modified electrodes, features of the redox probe that determi...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...