Sara Grecchi scite author profile

"Inherently chiral" thiophene-based electroactive oligomer films have recently been shown to exhibit outstanding chirality manifestations. One of the most exciting among them is an unprecedented enantioselection ability as electrode surfaces. In fact, in preliminary chiral voltammetry experiments, the new electrodes have been shown to both discriminate the enantiomers of chiral probes (either enantiopure or in a mixture, in terms of large differences in peak potentials) and quantify them (in terms of linear dynamic ranges in peak currents), without the need for preliminary separation steps. Such ability has now been tested on a series of chiral DOPA-related molecules, from phenolic amino acid tyrosine (together with its methyl ester) to catecholic amino acid DOPA (together with its methyl ester), to catecholamine epinephrine (adrenaline). The wide-range enantioselectivity of the new inherently chiral electrode surfaces is fully confirmed, as large peak potential differences are obtained for probe enantiomers of the whole series working in common aqueous buffers. Moreover, interesting modulating effects on enantiodiscrimination can be observed as a function of both molecular structure and pH. Graphical abstract Inherently chiral thiophene-based electrodes at work with pharmaceutically relevant probes.

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Spin-dependent electrochemistry: Enantio-selectivity driven by chiral-induced spin selectivity effect

Gazzotti

Arnaboldi

Grecchi

et al. 2018

Electrochimica Acta

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Sara Grecchi

Highly enantioselective “inherently chiral” electroactive materials based on a 2,2′-biindole atropisomeric scaffold

Electroactive chiral oligo- and polymer layers for electrochemical enantiorecognition

“Inherently chiral” thiophene-based electrodes at work: a screening of enantioselection ability toward a series of pharmaceutically relevant phenolic or catecholic amino acids, amino esters, and amine

Spin-dependent electrochemistry: Enantio-selectivity driven by chiral-induced spin selectivity effect

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