Conformational Landscapes of Metal(II) Porphyrinato, Chlorinato, and Morpholinochlorinato Complexes

Sharma, Meenakshi; Ticho, Alexander L.; Samankumara, Lalith P.; Zeller, Mat­thias; Brückner, Christian

doi:10.1021/acs.inorgchem.7b00799

Cited by 9 publications

(16 citation statements)

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“…[ 98 , 139 , 147 ] Apparently, the out of plane deformations weaken the macrocycle π‐electronic system through reducing the overlap of neighboring p z orbitals, [138] and hence may generate chirality in achiral porphyrins. Therefore, in this particular case the structural changes are strongly correlated with the intrinsic rotational strength[ 42 , 58 , 117 ] and are also a main factor responsible for the low energy shift of B‐band. [ 55 , 147 ] However, Pfeffer et al.…”

Section: Resultsmentioning

confidence: 99%

“…Synthetic porphyrins also found a broad application in catalysis, [4–6] optical and chemo sensors, [7–15] light harvesting, [5,16–18] medicine, [19–22] supramolecular systems, [1,23–27] electronic devices, [11,28,29] etc. Specific natural and supramolecular chiral environment may result in chirogenic processes in porphyrin chromophores, which can be detected by various spectroscopic methods such as X‐ray, [30–33] IR, [31,34] Raman, [32] NMR, [31,32,35,36] circular polarized luminescence, [30,37,38] vibrational, [34,39,40] electronic (ECD), [9,19,41–44] and magnetic [34,45,46] circular dichroism.…”

Section: Introductionmentioning

confidence: 99%

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Chirogenesis in Zinc Porphyrins: Theoretical Evaluation of Electronic Transitions, Controlling Structural Factors and Axial Ligation

et al. 2021

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In the present work, sixteen different zinc porphyrins (possessing different meso substituents) with and without a chiral guest were modelled using DFT and TD‐DFT approaches in order to understand the influence of various controlling factors on electronic circular dichroism (ECD) spectra. Two major aspects are influenced by these factors: excitation energy of the electronic transitions and their intensity. In the case of excitation energy, the influence increases in the following order: orientation of the peripheral substituents

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Chirogenesis in Zinc Porphyrins: Theoretical Evaluation of Electronic Transitions, Controlling Structural Factors and Axial Ligation

et al. 2021

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“…= 0.323 Å ) (Shelnutt et al, 1998) than in 1b (r.m.s. = 0.276 Å ; Sharma et al, 2017). While the tripyrrolic portion of 1d is significantly more ruffled than the corresponding section of 1b, the morpholine moieties are, except for the position of the ring oxygen, rather similar.…”

Section: Figurementioning

confidence: 94%

“…This formal replacement is achieved by a stepwise oxygen insertion into a porphyrin using a so-called 'breaking and mending' strategy (Brü ckner, 2016). As a consequence of the atom insertion, morpholinochlorins are non-planar (McCarthy et al, 2003;Brü ckner et al, 2011;Sharma et al, 2017). The twisted (ruffled) conformation of helimeric chirality of the morpholinochlorins was found to be affected by the size and number of alkoxy substituents, the presence of covalent links between the morpholine unit and the flanking aryl group, and the presence and type of central metal (Daniell & Brü ckner, 2004;Brü ckner et al, 2011;Sharma et al, 2017).…”

Section: Chemical Contextmentioning

confidence: 99%

“…As a consequence of the atom insertion, morpholinochlorins are non-planar (McCarthy et al, 2003;Brü ckner et al, 2011;Sharma et al, 2017). The twisted (ruffled) conformation of helimeric chirality of the morpholinochlorins was found to be affected by the size and number of alkoxy substituents, the presence of covalent links between the morpholine unit and the flanking aryl group, and the presence and type of central metal (Daniell & Brü ckner, 2004;Brü ckner et al, 2011;Sharma et al, 2017). Porphyrinoids containing two morpholine moieties are known (Daniell & Brü ckner, 2004;Guberman-Pfeffer et al, 2017), as well as other porphyrinoids containing morpholine building blocks (Lara et al, 2005;Samankumara et al, 2015;Akhigbe et al, 2016).…”

Section: Chemical Contextmentioning

confidence: 99%

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Crystal structure of 2,3-dimethoxy-meso-tetrakis(pentafluorophenyl)morpholinochlorin methylene chloride 0.44-solvate

et al. 2020

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The title morpholinochlorin, C46H16F20N4O3, was crystallized from hexane/methylene chloride as its 0.44 methylene chloride solvate, C46H16F20N4O3·0.44CH2Cl2. The morpholinochlorin was synthesized by stepwise oxygen insertion into a porphyrin using a `breaking and mending strategy': NaIO4-induced diol cleavage of the corresponding 2,3-dihydroxychlorin with in situ methanol-induced, acid-catalyzed intramolecular ring closure of the intermediate secochlorins bisaldehyde. Formally, one of the pyrrolic building blocks was thus replaced by a 2,3-dimethoxymorpholine moiety. Like other morpholinochlorins, the macrocycle of the title compound adopts a ruffled conformation, and the modulation of the porphyrinic π-system chromophore induces a red-shift of its optical spectrum compared to its corresponding chlorin analog. Packing in the crystal is governed by interactions involving the fluorine atoms of the pentafluorophenyl substituents, dominated by C—H...F interactions, and augmented by short fluorine...fluorine contacts, C—F...π interactions, and one severely slipped π-stacking interaction between two pentafluorophenyl rings. The solvate methylene chloride molecule is disordered over two independent positions around an inversion center with occupancies of two × 0.241 (5) and two × 0.199 (4), for a total site occupancy of 88%.

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Controlling Chirogenic Effects in Porphyrin Based Supramolecular Systems: Theoretical Analysis Versus Experimental Observations

Osadchuk,

Luts,

Zahharova

et al. 2024

ChemPhysChem

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Electronic circular dichroism (ECD) spectroscopy is a widely employed method for studying chiral analysis, requiring the presence of a chromophore close to a chiral centre. Porphyrinoids are found to be one of the best chromophoric systems serving for this purpose and enabling the application of ECD spectroscopy for chirality determination across diverse classes of organic compounds. Consequently, it is crucial to understand the induction mechanisms of ECD in the porphyrin‐based complexes. The present study explores systematically the influence of secondary chromophores, bonded to an achiral zinc porphyrin or to chiral guest molecules, on the B‐region of ECD spectra using the time‐dependent density functional theory (TD‐DFT) calculations. The study analyses the impact of change in both the conformation of achiral porphyrin (host) and change in position and conformation of chiral organic molecule (guest) on the B‐band of ECD spectra (energy, intensity, sign of Cotton effect). Finally, conclusions made on model complexes are applied to published experimental data, contributing to a deeper understanding of various factors influencing ECD spectra in chiral systems. In addition, a computer program aimed to help rationalise ECD spectra by visualizing corresponding orbital energies, rotatory strengths, electric and magnetic transition moments, and angles between them, is presented.

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Conformational Landscapes of Metal(II) Porphyrinato, Chlorinato, and Morpholinochlorinato Complexes

Cited by 9 publications

References 76 publications

Chirogenesis in Zinc Porphyrins: Theoretical Evaluation of Electronic Transitions, Controlling Structural Factors and Axial Ligation

Chirogenesis in Zinc Porphyrins: Theoretical Evaluation of Electronic Transitions, Controlling Structural Factors and Axial Ligation

Crystal structure of 2,3-dimethoxy-meso-tetrakis(pentafluorophenyl)morpholinochlorin methylene chloride 0.44-solvate

Controlling Chirogenic Effects in Porphyrin Based Supramolecular Systems: Theoretical Analysis Versus Experimental Observations

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