Your search keyword '"Grecchi S"' showing total 2 results

1. Trópos and Átropos Biindole Chiral Electroactive Monomers: A Voltammetry and HPLC Comparative Insight

Author

Luca Vaghi, Tiziana Benincori, Luca Scapinello, Roberto Cirilli, Serena Arnaboldi, Sara Grecchi, Marco Pierini, Patrizia R. Mussini, Ivo Franco Buzzi, Andrea Penoni, Arnaboldi, S, Grecchi, S, Vaghi, L, Penoni, A, Scapinello, L, Buzzi, I, Cirilli, R, Pierini, M, Benincori, T, and Mussini, P

Subjects

configurational stability, torsional barrier, Chemistry, enantioselective HPLC, interacting equivalent redox centres/chromophore, High-performance liquid chromatography, Catalysis, chemistry.chemical_compound, Monomer, Electrochemistry, Voltammetry, Organic chemistry, Configurational stability, Enantioselective hplc

Abstract

A series of 2,2’-biindole-based inherently chiral electroactive monomers are comparatively investigated with their 3,3’ analogues as an excellent study case of two equivalent redox centres interacting through a torsional barrier. The twin peak potential splitting observed in voltammetry for the first oxidation of the biheteroaromatic core accounts for the energy barrier height: the lower the barrier, the larger the peak potential splitting, with modulation by solvent and temperature. The height of the energy barrier is determining for the electrochemical and spectroscopic features of the monomers as well as for their configurational stability and applicability for enantioselection purposes. The 3,3’ monomers, featuring large twin peak splittings in CV, are “trópos” systems with a low torsional barrier, so they cannot exist as stable enantiomers at room temperature. Instead their 2,2’ isomers, with much smaller twin peak splittings, are “átropos” systems and can be separated by enantioselective HPLC into stable enantiomers, providing powerful “inherently chiral” selectors with outstanding enantioselection properties in chiral electroanalysis and electrochemistry as well as in chiroptical spectroscopy, with fascinating reciprocal correlations.

Published

2022

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

Author

Serena Arnaboldi, Roberto Cirilli, Andrea Penoni, Monica Panigati, Patrizia R. Mussini, Giovanna Longhi, Tiziana Benincori, Sara Grecchi, Giuseppe Mazzeo, Luca Vaghi, Sergio Abbate, Arnaboldi, S, Benincori, T, Penoni, A, Vaghi, L, Cirilli, R, Abbate, S, Longhi, G, Mazzeo, G, Grecchi, S, Panigati, M, and Mussini, P

Subjects

Materials science, Spins, 010405 organic chemistry, High Energy Physics::Lattice, High Energy Physics::Phenomenology, Chemistry (all), Enantioselective synthesis, General Chemistry, 010402 general chemistry, Inherent chirality, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences, Chemistry, chemistry.chemical_compound, Monomer, Enantiopure drug, chemistry, Surface modification, Chirality (chemistry), Racemization

Abstract

The new inherently chiral material shows outstanding chirality manifestations with chiral probes, as well as with circularly polarized light components and electron spins., Chiral oligothiophene monomers with C2 symmetry, based on 3,3′-bithiophene atropisomeric cores with high racemization barriers, have recently been shown to provide excellent chiral starting materials with high electroactivity for the easy preparation of enantiopure electroactive films endowed with powerful chirality manifestations. We now introduce an inherently chiral monomer based on a 2,2′-biindole core, as the prototype of a new inherently chiral monomer family, whose properties could be modulable through functionalization of the pyrrolic N atoms. By fast, regular electrooligomerization the new monomer yields inherently chiral films with high, reversible electroactivity and, above all, impressive enantioselectivity towards very different chiral probes, some of pharmaceutical interest, as general-scope electrode surfaces. Such results, while opening the way to a new, attractive inherently chiral selector class, nicely confirm the general validity of the inherent chirality strategy for chiral electrochemistry. Furthermore, the enantioselectivity of the new selectors not only holds with electroactive chiral probes, but also with circularly polarized light components as well as electron spins, resulting in good chiroptical and spin filter performances, which suggests fascinating correlations between the three contexts.

Published

2019