Your search keyword '"Homoporphyrins"' showing total 9 results

1. Synthesis and Properties of Nonaromatic meso‐fused Heterobenzihomoporphyrin(2.1.1.1)s.

Author

Varak, Pooja, Sinha, Avisikta, and Ravikanth, Mangalampalli

Subjects

*THIOPHENES, *CYCLIC voltammetry, *SELENOPHENE, *FLUORENE, *PYRROLES, *MACROCYCLIC compounds, *HYDROXYMETHYL compounds

Abstract

Fluorene‐based tripyrrane has been used as a fused precursor to synthesize three novel examples of nonaromatic meso‐fused thia and selenabenzihomoporphyrin(2.1.1.1)s by condensing it with appropriate 2,5‐bis(hydroxymethyl)aryl thiophene or selenophene under acid catalyzed conditions. The meso‐fused heterobenzihomoporphyrins contain one fluorene unit, two pyrrole rings and one thiophene/selenophene ring connected via five meso‐carbons in the macrocyclic framework. The macrocycles were thoroughly characterized by HR‐MS, 1D and 2D NMR, absorption, cyclic voltammetry and DFT/TD‐DFT studies. NMR, absorption, and DFT studies indicated the nonaromatic nature of meso‐fused heterobenzihomoporphyrins. The macrocycles displayed one intense band at ∼380 nm along with a shoulder band at 450 nm and a broad band in the region of 590–850 nm which were bathochromically shifted in the monoprotonated derivatives and absorbed prominently in the NIR region with the peak maxima at ∼1035 nm. The electrochemical studies revealed that the macrocycles showed three well‐defined oxidations and reductions, and TD‐DFT studies corroborated experimental observations. [ABSTRACT FROM AUTHOR]

Published

2023

2. 24π Core‐Modified Nonfused Pentaphyrin with Möbius Aromaticity.

Author

Ghosh, Arindam, Dash, Syamasrit, Srinivasan, A., Sahu, Mahaprasad S. R., Suresh, Cherumuttathu H., and Chandrashekar, Tavarekere K.

Subjects

*ALKENES, *CHEMISTRY, *IMINES, *IMINE derivatives, *DESHIELDING (Spectroscopy)

Abstract

Syntheses of core‐modified 24π pentaphyrin 7 and 20π homoporphyrin 8 are reported. The freebase form of 7 exhibits optical and 1H NMR spectroscopic behavior corresponding to a 4nπ nonaromatic topology at 298 K. However, upon lowering the temperature to 188 K, 7 exhibits weak aromaticity because of a small conformational change. Protonation of the imine pyrrolic nitrogen atoms results in sharpening of the absorption band with more than 100 nm red shift and two‐fold increase in ϵ values. The 1H NMR spectra show large shielding and deshielding of specific protons accompanied by twisting of pyrrole and thiophene rings from the mean plane of the macrocycle. These observations suggest a major structural change upon protonation. The single‐crystal X‐ray structure of protonated 7 a reveals a severe twisting of the macrocycle, especially at the ethene bridge, and the two thiophene rings adjacent to the ethene bridge are pointed above and below the plane of the ethene bridge (49.07° and 49.08°). The nucleus‐independent chemical shift (NICS) values calculated at the center of the macrocycle for the freebase and protonated derivatives of 7 a and 7 b are −5.6, −8.3 ppm and −5.3, −8.4 ppm, respectively. The anisotropy‐induced current density (AICD) plots suggest a clockwise circulation of π electrons. Taken together, the changes occurring in the optical spectra, 1H NMR spectra, single‐crystal X‐ray structure and NICS calculation reflect a Möbius aromatic topology for protonated 7. However, the homoporphyrin 8 remains nonaromatic both in the freebase and protonated form. Nonaromatic–aromatic: The protonation‐triggered conversion of a core‐modified 24π nonaromatic pentaphyrin (see graphic) to a 24π Möbius aromatic pentaphyrin is described. The aromaticity of the protonated form is revealed by 1H NMR spectroscopy, X‐ray structure analysis and nucleus‐independent chemical shift (NICS) calculations. [ABSTRACT FROM AUTHOR]

Published

2018

3. meso-Aryl [20]π Homoporphyrin: The Simplest Expanded Porphyrin with the Smallest Möbius Topology.

Author

Anju, K. S., Das, Mainak, Adinarayana, B., Suresh, Cherumuttathu H., and Srinivasan, A.

Subjects

*METABOLIC conjugation, *PORPHYRINS, *METALLOPORPHYRINS, *PROTONATION constants, *TRIFLUOROACETIC acid

Abstract

An unstable conjugated homoporphyrin was successfully stabilized by introducing meso-aryl substitutents. It was evident from the moderate diatropic ring current found by NMR analysis that the newly formed 20π conjugated free base and its protonated form exhibited Möbius aromatic character. Furthermore, complexation as a ligand with an RhI ion afforded a unique binding mode and retained the Möbius aromaticity. Overall, these compounds are the smallest Möbius aromatic molecules, as confirmed by spectral and crystal-structure analysis and supported by theoretical studies. [ABSTRACT FROM AUTHOR]

Published

2017

4. Stable thiophene-embedded N-confused homoporphyrins : Partial conjugation, fusion and fluoride binding

Author

Gao, Shimin, Li, Chengjie, Baryshnikov, Glib, Ågren, Hans, Li, Qizhao, Xie, Yongshu, Gao, Shimin, Li, Chengjie, Baryshnikov, Glib, Ågren, Hans, Li, Qizhao, and Xie, Yongshu

Abstract

In the past decades, porphyrin analogues have attracted increasing attention in light of their unique properties and potential applications in various areas. In this work, novel nonconjugated thiophene-embedded N-confused homoporphyrins 1 and 2 as well as a fully-conjugated N-fused homoporphyrin 3 have been prepared through acid-catalyzed condensation reactions followed by oxidation. Both 1 and 2 comprise two meso-sp3-carbon atoms. However, they are insensitive to the air or common oxidants. Single crystal X-ray diffraction analysis reveals that 2 adopts a highly distorted boat-like conformation, with the NH moieties of two pyrrolic units pointing outwards and an O atom attached to the alpha position of the N-confused pyrrole unit. As a result, hydrogen-bonded dimers are formed through the intermolecular hydrogen bonds between the lactam-like moieties. In contrast to the highly distorted structure of 2, N-fused homoporphyrin 3 contains a unique 5,5,5-tricyclic fused ring, and thus demonstrates a relatively coplanar conformation except one inverted pyrrole unit. Because of the different structural characters, 3 exhibits F- binding behavior distinct from that of 1 and 2., Title in WoS: Stable thiophene-embedded N-confused homoporphyrins: Partial conjugation, fusion and fluoride binding

Published

2021

5. Synthesis and Structure of

Author

Nitika, Grover, Ganapathi, Emandi, Brendan, Twamley, Bhavya, Khurana, Vincent, Sol, and Mathias O, Senge

Subjects

Full Paper, Expanded porphyrins, Porphyrinoids, Photosensitizer, Non‐aromatic, Full Papers, Expanded Porphyrinoids | Very Important Paper, Homoporphyrins

Abstract

Bench‐stable meso‐substituted di(p/m‐benzi)homoporphyrins were synthesized through acid‐catalyzed condensation of dipyrrole derivatives with aryl aldehydes. The insertion of a 1,1,2,2‐tetraphenylethene (TPE) or but‐2‐ene‐2,3‐diyldibenzene unit in the porphyrin framework results in the formation of dibenzihomoporphyrins, merging the features of hydrocarbons and porphyrins. Single crystal X‐ray analyses established the non‐planar structure of these molecules, with the phenylene rings out of the mean plane, as defined by the dipyrromethene moiety and the two meso‐carbon atoms. Spectroscopic and structural investigations show that the macrocycles exhibit characteristics of both TPE or but‐2‐ene‐2,3‐diyldibenzene and dipyrromethene units indicating the non‐aromatic characteristics of the compounds synthesized. Additionally, the dibenzihomoporphyrins were found to generate singlet oxygen, potentially allowing their use as photosensitizers., A series of dibenzihomoporphyrins were synthesized by incorporation of phenylene para‐ and meta‐linkages into the macrocycles. Structural elucidation revealed non‐aromatic property due to a lack of effective π‐conjugation and non‐planarity of the macrocycles. Furthermore, these macrocycles were shown to act as photosensitizers for singlet oxygen generation.John Wiley & Sons, Ltd.

Published

2020

6. Covalently Linked meso-BODIPYnyl Dithiahomoporphyrins: Synthesis and Properties

Author

THORAT, KG, CHOWDHARY, G, ISAR, P, and RAVIKANTH, M

Subjects

Density functional calculations, Cyclic voltammetry, Synthetic methods, BODIPY, Porphyrinoids, REARRANGEMENT, CRYSTAL-STRUCTURE, HOMOPORPHYRINS

Abstract

A series of novel covalently linked meso-BODIPYnyl dithiahomoporphyrins was synthesized by treating readily available tetrapyrrane and appropriate formyl BODIPY derivatives in the presence of catalytic amount of BF3OEt2 in CH2Cl2 followed by oxidation using DDQ. The meso-BODIPYnyl dithiahomoporphyrins were characterized by HR-MS, 1D, 2D NMR and absorption spectroscopy, cyclic voltammetry and DFT studies. The spectral and electrochemical studies suggest that the BODIPY and homoporphyrin units in meso-BODIPYnyl dithiahomoporphyrins retain their original identities. The compounds were non-fluorescent due to intramolecular charge transfer from dithiahomoporphyrin moiety to a respective BODIPY unit in meso-BODIPYnyl dithiahomoporphyrins. The DFT studies supported the intramolecular charge transfer between the two chromophores in meso-BODIPYnyl dithiahomoporphyrins.

Published

2018

7. Stable Nonaromatic [20]Dithiaporphyrin (2.1.1.1) Macrocycles: Synthesis, Structure, Spectral, Electrochemical, and Metal Ion Sensing Studies

Author

Way Zen Lee, Emandi Ganapathi, and Mangalampalli Ravikanth

Subjects

Tetrapyrrolic Macrocycles, Building-Block, Absorption spectroscopy, Organic Chemistry, Electrochemistry, Photochemistry, Porphyrin, Homoporphyrins, Metal, Chemistry, Crystallography, chemistry.chemical_compound, chemistry, visual_art, visual_art.visual_art_medium, Thiophene, Cyclopolypyrroles, Moiety, Expanded Porphyrins, Spectroscopy, Two-dimensional nuclear magnetic resonance spectroscopy, Mobius Aromaticity

Abstract

Stable nonaromatic [20] dithiaporphyrin (2.1.1.1) macrocycles were synthesized in decent yields by condensing readily available butene-2,3-diyl-bisthiophene-2,5diyl-bis(p-methoxyphenylmethanol) with different meso-aryl dipyrromethanes under mild acid catalyzed conditions. The [20]clithiaporphyrin (2.1.1.1) macrocydes are the first members of the expanded poiphyrin analogues of [18]dithiaporphyrin (1.1.1.1) and consist of two pyrroles and two thiophenes connected through five meso-carbon bridges. The [20]dithiaporphyrin macrocycles were confirmed by mass spectroscopy, 1D and 2D NMR spectroscopy, and X-ray crystallography. The X-ray structure revealed that the macrocycle is highly distorted and that the two thiophene rings are completely out from the "mean-plane" defined by the dipyrromethene moiety and the two meso-carbons. In the absorption spectrum, the macrocycles showed one strong band at similar to 420 nm and one weak band at similar to 720 nm. The electrochemical studies revealed that the macrocycles are stable under redox conditions. The metal sensing studies indicated that these macrocycles have the potential to sense specific metal ions such as Hg2+ ions. Two covalently linked dithiahomoporphyrin fluorophore dyads were synthesized by coupling iodo-functionalized dithiahomoporphyrin with an ethynyl-functionalized fluorophore such as boron dipyrromethene (BODIPY) and BF2 smaragdyrin under mild Pd(0) coupling conditions. The potential of these dyads as a fluorescent sensor for Hg2+ was explored, and the studies indicated that both dyads can be used as fluorescent sensors.

Published

2014

8. Synthesis and Structure of meso -Substituted Dibenzihomoporphyrins.

Author

Grover N, Emandi G, Twamley B, Khurana B, Sol V, and Senge MO

Abstract

Bench-stable meso-substituted di( p/m -benzi)homoporphyrins were synthesized through acid-catalyzed condensation of dipyrrole derivatives with aryl aldehydes. The insertion of a 1,1,2,2-tetraphenylethene (TPE) or but-2-ene-2,3-diyldibenzene unit in the porphyrin framework results in the formation of dibenzihomoporphyrins, merging the features of hydrocarbons and porphyrins. Single crystal X-ray analyses established the non-planar structure of these molecules, with the phenylene rings out of the mean plane, as defined by the dipyrromethene moiety and the two meso-carbon atoms. Spectroscopic and structural investigations show that the macrocycles exhibit characteristics of both TPE or but-2-ene-2,3-diyldibenzene and dipyrromethene units indicating the non-aromatic characteristics of the compounds synthesized. Additionally, the dibenzihomoporphyrins were found to generate singlet oxygen, potentially allowing their use as photosensitizers., (© 2020 The Authors. European Journal of Organic Chemistry published by Wiley‐VCH GmbH.)

Published

2020

9. Synthesis, Structure, Spectral and Electrochemical Properties of [20]Dioxahomoporphyrins and Covalently Linked Dioxahomoporphyrin-Porphyrin Dyads

Author

GANAPATHI, E, KUILYA, S, CHATTERJEE, T, and RAVIKANTH, M

Subjects

Tetrapyrrolic Macrocycles, Uv/Vis Spectroscopy, Porphyrinoids, Voltammetry, Expanded Porphyrins, Homoporphyrins

Abstract

A series of new [20]dioxahomoporphyrins have been synthesized by [2+2]condensation of (but-2-ene-2,3-diyldifuran-2,5-diyl) bis(p-methoxyphenylmethanol) with appropriate meso-aryldipyrromethanes under mild acid-catalyzed conditions. The X-ray structure determined for one of the dioxahomoporphyrins revealed that the macrocycle is significantly distorted and the two furan rings are completely out-of-plane from the mean plane. The [20]dioxahomoporphyrin macrocycles are stable and non-aromatic, and have been characterized in detail by HRMS, 1D and 2D NMR spectroscopy, UV/Vis spectrophotometry and electrochemical techniques. The iodo-functionalized [20]dioxahomoporphyrin was used to synthesize a covalently linked diphenylethyne-bridged [20]dioxahomoporphyrin- porphyrin dyad by coupling with an ethynyl-functionalized porphyrin under mild copper-free Pd-0 catalytic conditions. The metallation of the porphyrin macrocycle of the [20]dioxahomoporphyrin- porphyrin dyad was carried out by treating the dyad with the appropriate metal salt under standard conditions and the resulting [20]dioxahomoporphyrin-metalloporphyrin dyads were characterized by various spectral and electrochemical techniques. The results of the studies indicated that in the dyads the dioxahomoporphyrin and porphyrin/metalloporphyrin units interact weakly and retain their individual features.

Published

2016