Conformational Changes and Redox Properties of Bimetallic Single Helicates of Hexapyrrole‐α,ω‐dicarbaldehydes

Eerdun, Chaolu; Nguyen, Thi Hien Thuy; Okayama, Takuya; Hisanaga, Satoshi; Setsune, Jun‐ichiro

doi:10.1002/chem.201900353

Cited by 7 publications

(5 citation statements)

References 105 publications

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“…[Pd 2 (L17−4H)] complex was differently bridged and more flexible. Other dinuclear double-hairpin structures have also been reported by Setsune and co-workers with hexapyrrole dicarbaldehyde ligands, with Cu(II) and Ni(II), 71 with similar results also reported by Xie and co-workers. 72…”

Section: Metal Ions Promoting the Formation Of Turnssupporting

confidence: 87%

“…The authors were able to employ the same base/acid stimuli to deprotonate this site and switch coordination modes, although the end result in this case is still a double hairpin, the resultant [Pd 2 ( L17 –4H)] complex was differently bridged and more flexible. Other dinuclear double-hairpin structures have also been reported by Setsune and co-workers with hexapyrrole dicarbaldehyde ligands, with Cu(II) and Ni(II), 71 with similar results also reported by Xie and co-workers. 72 …”

Section: Metal Ions Promoting the Formation Of Turnssupporting

confidence: 87%

“…59 Another conversion from an extended-type conformation (a double hairpin) to helical form has been achieved with square planar palladium(II) by Setsune and co-workers. 60,61 For example, they formed a hexapyrrole sequence capped with aldehydes (H 4 L8, Figure 6 top, X = O), allowing imine condensations, aided by zinc p-tert-butylbenzoate, to alter the terminal groups. This adopted an extended conformation due to alternating NH−H hydrogen bonds between pyrrole groups (Figure 6a).…”

Section: From Extended Conformations To Helicesmentioning

confidence: 99%

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Roles of Metal Ions in Foldamers and Other Conformationally Flexible Supramolecular Systems

2022

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Conformational control is a key prerequisite for much molecular function. As chemists seek to create complex molecules that have applications beyond the academic laboratory, correct spatial positioning is critical. This is particularly true of flexible systems. Conformationally flexible molecules show potential because they resemble in many cases naturally occurring analogues such as the secondary structures found in proteins and peptides such as α-helices and β-sheets. One of the ways in which conformation can be controlled in these molecules is through interaction with or coordination to metal ions. This review explores how secondary structure (i.e., controlled local conformation) in foldamers and other conformationally flexible systems can be enforced or modified through coordination to metal ions. We hope to provide examples that illustrate the power of metal ions to influence this structure toward multiple different outcomes.

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Section: Metal Ions Promoting the Formation Of Turnssupporting

confidence: 87%

Section: Metal Ions Promoting the Formation Of Turnssupporting

confidence: 87%

Section: From Extended Conformations To Helicesmentioning

confidence: 99%

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Roles of Metal Ions in Foldamers and Other Conformationally Flexible Supramolecular Systems

2022

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“…The ESR spectrum of complex 1-Cu indicated the presence of two noninteracting Cu(II) ions in slightly different coordination environments. Generally, the bis(Cu(II)) complexes stabilized with hexapyrrolic ligands are ESR-inactive due to weak/strong antiferromagnetic coupling between the two Cu(II) metal. , However, in 1 - Cu the two Cu(II) ions were far from each other and remained noninteracting. The ESR spectra of 1-Cu are simulated considering two independent copper metal nuclei with equal weightage.…”

Section: Results and Discussionmentioning

confidence: 99%

Synthesis, Structure, and Properties of Helical Bis-Cu(II) Complex of Linear Hexapyrrolic Ligand

2022

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The chemistry of metal helical complexes has attracted wide interest not only because of their resemblance with DNA structure but also due to their unique photophysical and chiroptical properties. Linear hexapyrrolic ligand 1 has been designed and synthesized using 3-pyrrolyl BODIPY as a key precursor. The reactivity of the appended pyrrole group of 3pyrrolyl BODIPY was taken as an advantage to synthesize bis(3pyrrolyl BODIPY) by treating 3-pyrrolyl BODIPY with 10 equiv of acetone in CHCl 3 under acid-catalyzed conditions and afforded bis(3-pyrrolyl BODIPY) 2 in 20% yield. Bis(3-pyrrolyl BODIPY) 2, in which two 3-pyrrolyl BODIPY units were connected via sp 3 meso carbon, was very stable, and its identity was confirmed by HR-MS, NMR, and X-ray crystallographic analysis. The X-ray structure revealed that the 3-pyrrolyl BODIPY moieties in bis(3pyrrolyl BODIPY) 2 remained almost planar and arranged at an angle of 98.4°with each other, leading to a V-shaped conformation. In the next step, bis(3-pyrrolyl BODIPY) 2 was treated with AlCl 3 in acetonitrile/methanol at reflux to afford hexapyrrolic ligand 1. Hexapyrrolic ligand 1 was treated with CuCl 2 in acetonitrile at room temp for 1 h followed by crystallization to afford helical bis-Cu(II) complex 1-Cu. Bis-Cu(II) complex 1-Cu was characterized and studied by HR-MS, X-ray crystallography, ESR, absorption, and DFT/TD-DFT techniques. The X-ray structure revealed that the bis-Cu(II) complex was a double-stranded bimetallic helicate and each Cu(II) ion was coordinated to four nitrogen atoms of two dipyrrin units from two hexapyrrolic ligands in a distorted tetrahedral geometry. The crystal packing diagram showed that the bis-Cu(II) complex formed as a racemic mixture containing both M and P isomers which was unable to isolate. The ESR spectrum of bis-Cu(II) complex 1-Cu indicated the presence of two noninteracting Cu(II) ions in slightly different coordination environments. DFT and TD-DFT studies were in agreement with the experimental observations of bis(3-pyrrolyl BODIPY) 2 complex and bis-Cu(II) complex 1-Cu.

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“…4,10 a Also, their metal-coordinating and anion-binding abilities can induce formation of helical conformations in oligomers. 11 And they exhibit intense absorption and emission in the visible and NIR regions. Research is continuing apace to find new NIR-active helical dyes.…”

mentioning

confidence: 99%

Bis(naphthobipyrrolyl)methene-derived hexapyrrolic BODIPY as a single-molecule helicate with near-infrared emission

Sahoo

Panda

2023

Chem. Commun.

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Conformational Changes and Redox Properties of Bimetallic Single Helicates of Hexapyrrole‐α,ω‐dicarbaldehydes

Cited by 7 publications

References 105 publications

Roles of Metal Ions in Foldamers and Other Conformationally Flexible Supramolecular Systems

Roles of Metal Ions in Foldamers and Other Conformationally Flexible Supramolecular Systems

Synthesis, Structure, and Properties of Helical Bis-Cu(II) Complex of Linear Hexapyrrolic Ligand

Bis(naphthobipyrrolyl)methene-derived hexapyrrolic BODIPY as a single-molecule helicate with near-infrared emission

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