R. V. Ramana Reddy scite author profile

A free-base and its Cu(III) derivative of bichromophoric meso-β linked corrole-BODIPY dyad were synthesized and structurally characterized by single crystal X-ray diffraction (XRD). Both corrole and BODIPY fragments maintained respective ground state electronic isolation despite their connection through a single bond due to a tilted orientation as observed by XRD. This was further supported by UV-vis and cyclic voltammetric studies. The Cu(III)-metalated dyad exhibits temperature-dependent paramagnetic behavior as observed in the variable temperature (1)H NMR due to the presence of a Cu(II)-corrole-π-cation radical. Importantly, the free-base exhibits complete fluorescence quenching probably due to photoinduced electron transfer to a low lying charge separated state. Interestingly, emission was regained upon addition of 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) due to the deprotonation of corrole. The "turn on" fluorescence behavior and the presence of acidic NH protons were further exploited toward basic anion sensing utility.

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Gallium(iii)corrole–BODIPY hybrid: novel photophysical properties and first observation of B–F⋯F interactions

Basumatary

Reddy

Bhandary

et al. 2015

Dalton Trans.

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The Curious Case of a Parasitic Twin of the Corroles

et al. 2018

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An expanded porphyrinoid has been obtained by a simple ring expansion from a contracted porphyrinoid, namely corrole. Spectroscopic, structural, and computational investigations reveal peculiar π-conjugation and geometry. The effect of extended π-conjugation is evident from perturbed redox behavior and photophysical properties. Owing to the strong diatropic ring current of the corrole and cross-conjugation, the molecule exhibits a non-aromatic nature for the expanded π-circuit, as evident from NMR studies.

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A new meso–meso directly-linked corrole–porphyrin–corrole hybrid: synthesis and photophysical properties

2014

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Zwitterionic BODIPYs with large stokes shift: small molecular biomarkers for live cells

et al. 2017

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The two first examples of zwitterionic BODIPYs have been synthesized via a simple S-Ar methodology. The molecules exhibit excellent optical behavior, such as a large Stokes shift in solution and therefore a very intense emission, and can thus avoid self-quenching. The zwitterionic nature of the molecules was unambiguously elucidated using single crystal XRD studies. The electronic conjugation was investigated by NMR, DFT (NICS (0)) and XRD analysis. Due to their inherent ionic nature, their enhanced solubility in aqueous conditions was exploited for their utility in bio-imaging and cell viability studies. These molecules demonstrate promising localization inside live yeast cells.

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R. V. Ramana Reddy

Corrole-BODIPY Dyads: Synthesis, Structure, and Electrochemical and Photophysical Properties

Gallium(iii)corrole–BODIPY hybrid: novel photophysical properties and first observation of B–F⋯F interactions

The Curious Case of a Parasitic Twin of the Corroles

A new meso–meso directly-linked corrole–porphyrin–corrole hybrid: synthesis and photophysical properties

Zwitterionic BODIPYs with large stokes shift: small molecular biomarkers for live cells

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