In Nature chirality has played a key role since the appearance of the first living being. Nowadays in our modern society capability to discriminate antipodes is still crucial; let us think to pharmaceutical industry: effective chiral selectors are mandatory both from an analytical and a synthetic point of view. Identifying chiral selectors able to effectively discriminate enantiomers of chiral analytes is a challenging task also for electrochemists [1,2]. In this frame our research group is working on the so called \u201cinherently chiral functional molecular materials\u201d, ICFMMs; the idea is simple: make the stereogenic element responsible for chirality coincident with the functional group responsible for the material specific property....
Enantioselective electroanalysis is an advanced, attractive target of high potential interest in app...
Chirality can make electrochemistry even smarter, endowing it with a superior level of selectivity. ...
We have recently introduced [1-2] "inherently chiral" enantiopure electrode surfaces of outstanding ...
The usual approaches to chiral electroactive molecular materials, relying on attaching chiral pendan...
The ability to select among different electroactive molecules, or among different redox centers on a...
Electrochemical processes are intrinsically "intelligent" on account of the selectivity achievable i...
Enantioselective electrochemistry, implying the ability to discriminate the enantiomers of chiral mo...
A powerful tool is provided by electroactive heterocycle-based oligomer films endowed with \u201cinh...
The development of artificial "intelligent" electrodes, capable to discriminate and quantify the ena...
We have recently introduced "inherently chiral" enantiopure electrode surfaces of outstanding chiral...
We have recently introduced1-2 "inherently chiral" enantiopure electrode surfaces of outstanding chi...
All electrochemical processes are intrinsically "intelligent" on account of the selectivity achievab...
Abstract. Enantioselective electroanalysis is an attractive target of high potential interest. Of co...
[Please note that this contribution has been presented by Dr. Arnaboldi in place of Patrizia Mussini...
An attractive issue in electroanalysis is the development of artificial \u201cintelligent\u201d elec...
Enantioselective electroanalysis is an advanced, attractive target of high potential interest in app...
Chirality can make electrochemistry even smarter, endowing it with a superior level of selectivity. ...
We have recently introduced [1-2] "inherently chiral" enantiopure electrode surfaces of outstanding ...
The usual approaches to chiral electroactive molecular materials, relying on attaching chiral pendan...
The ability to select among different electroactive molecules, or among different redox centers on a...
Electrochemical processes are intrinsically "intelligent" on account of the selectivity achievable i...
Enantioselective electrochemistry, implying the ability to discriminate the enantiomers of chiral mo...
A powerful tool is provided by electroactive heterocycle-based oligomer films endowed with \u201cinh...
The development of artificial "intelligent" electrodes, capable to discriminate and quantify the ena...
We have recently introduced "inherently chiral" enantiopure electrode surfaces of outstanding chiral...
We have recently introduced1-2 "inherently chiral" enantiopure electrode surfaces of outstanding chi...
All electrochemical processes are intrinsically "intelligent" on account of the selectivity achievab...
Abstract. Enantioselective electroanalysis is an attractive target of high potential interest. Of co...
[Please note that this contribution has been presented by Dr. Arnaboldi in place of Patrizia Mussini...
An attractive issue in electroanalysis is the development of artificial \u201cintelligent\u201d elec...
Enantioselective electroanalysis is an advanced, attractive target of high potential interest in app...
Chirality can make electrochemistry even smarter, endowing it with a superior level of selectivity. ...
We have recently introduced [1-2] "inherently chiral" enantiopure electrode surfaces of outstanding ...