Add to ORKGEnantiorecognition is a key issue in advanced analytical chemistry, particularly concerning the biological and pharmaceutical field. Enantiomeric molecules, being mirror-image structures, have identical physico-chemical scalar properties, but opposite pseudo-scalar ones. When interacting with a racemic probe, chiral molecules are able to recognize the enantiomers through diasteromeric interactions. Similarly, chiral electrodes are required for enantioselective electroanalysis, and the development of "intelligent" electrodes capable of discriminating enantiomers, in particular molecules of biological and pharmaceutical importance, remains as one of the major challenges in electroanalysis. We have recently proposed the first synthetic inher...
Molecular materials coupling electroactivity with enantiorecognition capability are an attractive ob...
In Nature chirality has played a key role since the appearance of the first living being. Nowadays i...
An attractive issue in electroanalysis is the development of artificial \u201cintelligent\u201d elec...
Enantiorecognition is a key issue in advanced analytical chemistry, particularly concerning the biol...
A powerful tool is provided by electroactive heterocycle-based oligomer films endowed with \u201cinh...
Electrochemical processes are intrinsically "intelligent" on account of the selectivity achievable i...
In "inherently chiral" molecules chirality and key functional properties originate from the same str...
We have recently shown1,2 that oligomers endowed with \u201cinherent chirality\u201d display high ch...
Chiral oligothiophene monomers with C2 symmetry, based on 3,30 -bithiophene atropisomeric cores with...
We have recently introduced "inherently chiral" enantiopure electrode surfaces of outstanding chiral...
Chiral electroanalysis could be regarded as the highest recognition degree in electrochemical sensin...
We have recently introduced1-2 "inherently chiral" enantiopure electrode surfaces of outstanding chi...
An attractive target in electroanalysis is the availability of chiral media affording enantioselecti...
The development of artificial "intelligent" electrodes, capable to discriminate and quantify the ena...
The usual approaches to chiral electroactive molecular materials, relying on attaching chiral pendan...
Molecular materials coupling electroactivity with enantiorecognition capability are an attractive ob...
In Nature chirality has played a key role since the appearance of the first living being. Nowadays i...
An attractive issue in electroanalysis is the development of artificial \u201cintelligent\u201d elec...
Enantiorecognition is a key issue in advanced analytical chemistry, particularly concerning the biol...
A powerful tool is provided by electroactive heterocycle-based oligomer films endowed with \u201cinh...
Electrochemical processes are intrinsically "intelligent" on account of the selectivity achievable i...
In "inherently chiral" molecules chirality and key functional properties originate from the same str...
We have recently shown1,2 that oligomers endowed with \u201cinherent chirality\u201d display high ch...
Chiral oligothiophene monomers with C2 symmetry, based on 3,30 -bithiophene atropisomeric cores with...
We have recently introduced "inherently chiral" enantiopure electrode surfaces of outstanding chiral...
Chiral electroanalysis could be regarded as the highest recognition degree in electrochemical sensin...
We have recently introduced1-2 "inherently chiral" enantiopure electrode surfaces of outstanding chi...
An attractive target in electroanalysis is the availability of chiral media affording enantioselecti...
The development of artificial "intelligent" electrodes, capable to discriminate and quantify the ena...
The usual approaches to chiral electroactive molecular materials, relying on attaching chiral pendan...
Molecular materials coupling electroactivity with enantiorecognition capability are an attractive ob...
In Nature chirality has played a key role since the appearance of the first living being. Nowadays i...
An attractive issue in electroanalysis is the development of artificial \u201cintelligent\u201d elec...