Discrete Self‐Assembled Metallo‐Foldamers with Heteroleptic Sequence Specificity

Preston, Dan

doi:10.1002/ange.202108456

Angewandte Chemie

2021

DOI: 10.1002/ange.202108456

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Discrete Self‐Assembled Metallo‐Foldamers with Heteroleptic Sequence Specificity

Dan Preston

Abstract: Discrete and structurally diverse foldamer sequences are constructed in both natural and abiotic systems primarily using inert connectivity with irreversible organic covalent bonds, serving to preserve the identity of the sequence. The formation of sequences under thermodynamic control using labile coordination bonds would be attractive for synthetic ease and modular capability, but this presents issues regarding sequence preservation. Here is presented an approach integrating palladium(II) metal ions into the… Show more

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Cited by 9 publications

References 84 publications

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Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Shan

et al. 2021

Angewandte Chemie

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In nature as well as life systems, the presence of asymmetrical and dissymmetrical structures with specific functions is extremely common. However, the construction of metallo‐supramolecular assemblies based on dissymmetrical ligands still remains a considerable challenge for avoiding the generation of unexpected isomers with similar thermodynamic stabilities, especially for three‐dimensional supramolecular structures. In this study, a strategy for the conformational control of metallo‐supramolecular cages via the enhancement of ligand dissymmetry was proposed. Four dissymmetrical ditopic ligands were designed and synthesized. By increasing the dissymmetry of length or angle, conformations of assemblies were precisely controlled to form discrete cis‐PdnL2n molecular cages.

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Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Shan

et al. 2021

Angewandte Chemie

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Controlling the Complexity and Interconversion Mechanisms in Self‐Assembled [Fe₂L₃]⁴⁺ Helicates and [Fe₄L₆]⁸⁺ Cages

et al. 2021

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Self-assembled coordination cages and metalorganic frameworks have relied extensively on symmetric ligands in their formation. Here we have prepared a relatively simple system employing an unsymmetric ligand that results in two distinct self-assembled structures, a [Fe 2 L 3 ] 4 + helicate and a [Fe 4 L 6 ] 8 + cage composed of 10 interconverting diastereomers and their enantiomers. We show that the steric profile of the ligand controls the complexity, thermodynamics and kinetics of interconversion of the system.

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LiBF₄‐Induced Rearrangement and Desymmetrization of a Palladium‐Ligand Assembly

et al. 2022

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Thirteen palladium-ligand assemblies with different structures and topologies were investigated for the ability to bind lithium ions. In one case, the addition of LiBF 4 resulted in a profound structural rearrangement, converting a dincluclear [Pd 2 L 4 ] 4 + complex into a low-symmetry [Pd 4 L 8 ] 8 + assembly with two binding pockets for solvated LiBF 4 ion pairs. The rearrangement could only be induced by Li + , indicating highly specific host-guest interactions. A structural analysis of the [Pd 4 L 8 ] 8 + receptor revealed a compact structure with multiple intramolecular interactions, reminiscent of what is seen for natural and synthetic foldamers.

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Discrete Self‐Assembled Metallo‐Foldamers with Heteroleptic Sequence Specificity

Cited by 9 publications

References 84 publications

Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Controlling the Complexity and Interconversion Mechanisms in Self‐Assembled [Fe₂L₃]⁴⁺ Helicates and [Fe₄L₆]⁸⁺ Cages

LiBF₄‐Induced Rearrangement and Desymmetrization of a Palladium‐Ligand Assembly

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Discrete Self‐Assembled Metallo‐Foldamers with Heteroleptic Sequence Specificity

Cited by 9 publications

References 84 publications

Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Conformational Control of a Metallo‐Supramolecular Cage via the Dissymmetrical Modulation of Ligands

Controlling the Complexity and Interconversion Mechanisms in Self‐Assembled [Fe2L3]4+ Helicates and [Fe4L6]8+ Cages

LiBF4‐Induced Rearrangement and Desymmetrization of a Palladium‐Ligand Assembly

Contact Info

Product

Resources

About

Controlling the Complexity and Interconversion Mechanisms in Self‐Assembled [Fe₂L₃]⁴⁺ Helicates and [Fe₄L₆]⁸⁺ Cages

LiBF₄‐Induced Rearrangement and Desymmetrization of a Palladium‐Ligand Assembly