Absorption spectroscopy and voltammetry, of known analogies and connections, share even more fascinating similarities and connections at a higher complexity level, when “upgrading” them with the ability to discriminate between enantiomers by chiral selector implementation. In both techniques either “molecular” selectors or “electromagnetic” ones (L- versus R-circularly polarized light components for spectroscopy, α- versus β-spin electrons for voltammetry) can be considered; moreover, external magnetic field application can replace a truly chiral actor. A tentative schematization is provided. Analogies and connections also concern molecular features of the enantiodiscrimination actors. In both techniques outstanding performances are obtained with inherently chiral molecules, in which a conjugated backbone with tailored torsion is source of chirality as well as spectroscopic and electrochemical activity, in an attractive three-fold interconnection. Their outstanding effects can be justified by a combination of chemical and electromagnetic properties (excellent potential molecular spin filters), a fascinating challenge for future developments.
Enantiomer discrimination in absorption spectroscopy and in voltammetry: highlighting fascinating similarities and connections / P.R. Mussini, S. Arnaboldi, M. Magni, S. Grecchi, G. Longhi, T. Benincori. - In: CURRENT OPINION IN ELECTROCHEMISTRY. - ISSN 2451-9103. - 37:(2023), pp. 101128.1-101128.15. [10.1016/j.coelec.2022.101128]
Enantiomer discrimination in absorption spectroscopy and in voltammetry: highlighting fascinating similarities and connections
P.R. Mussini
Primo
;S. ArnaboldiSecondo
;M. Magni;S. Grecchi;
2023
Abstract
Absorption spectroscopy and voltammetry, of known analogies and connections, share even more fascinating similarities and connections at a higher complexity level, when “upgrading” them with the ability to discriminate between enantiomers by chiral selector implementation. In both techniques either “molecular” selectors or “electromagnetic” ones (L- versus R-circularly polarized light components for spectroscopy, α- versus β-spin electrons for voltammetry) can be considered; moreover, external magnetic field application can replace a truly chiral actor. A tentative schematization is provided. Analogies and connections also concern molecular features of the enantiodiscrimination actors. In both techniques outstanding performances are obtained with inherently chiral molecules, in which a conjugated backbone with tailored torsion is source of chirality as well as spectroscopic and electrochemical activity, in an attractive three-fold interconnection. Their outstanding effects can be justified by a combination of chemical and electromagnetic properties (excellent potential molecular spin filters), a fascinating challenge for future developments.File | Dimensione | Formato | |
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2022 CurrOp ChiralCVvsSpectr.pdf
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2022 CurrOp ChiralCVvsSpectr SI.pdf
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COELEC-D-22-00178_R1 (4).pdf
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