Making a Right or Left Choice: Chiral Self-Sorting as a Tool for the Formation of Discrete Complex Structures

Jędrzejewska, Hanna; Szumna, Agnieszka

doi:10.1021/acs.chemrev.6b00745

Cited by 154 publications

(121 citation statements)

References 174 publications

Supporting

Mentioning

119

Contrasting

Order By: Relevance

“…[5] More recently, chiral metallo-supramolecular self-assembled rings and cages have been introduced as selective receptors and enzyme-like nanoreactors based on chiral backbones, auxiliaries, the inherent chirality of stereogenic metal centers, or the overall architecture. [6] Upon metal coordination, racemic mixtures of ligands may undergo chiral self-sorting, [7] leading to homochiral [8][9][10] or heterochiral [10,11] assemblies. Beyond their use in enantioselective recognition, chiral cages based on luminescent metal centers have been shown to exhibit unique chiroptical properties.…”

mentioning

confidence: 99%

Chiral Self‐Discrimination and Guest Recognition in Helicene‐Based Coordination Cages

2019

View full text Add to dashboard Cite

Chiral nanosized confinements play a major role for enantioselective recognition and reaction control in biological systems. Supramolecular self‐assembly gives access to artificial mimics with tunable sizes and properties. Herein, a new family of [Pd2L4] coordination cages based on a chiral [6]helicene backbone is introduced. A racemic mixture of the bis‐monodentate pyridyl ligand L1 selectively assembles with PdII cations under chiral self‐discrimination to an achiral meso cage, cis‐[Pd2L1P2L1M2]. Enantiopure L1 forms homochiral cages [Pd2L1P/M4]. A longer derivative L2 forms chiral cages [Pd2L2P/M4] with larger cavities, which bind optical isomers of chiral guests with different affinities. Owing to its distinct chiroptical properties, this cage can distinguish non‐chiral guests of different lengths, as they were found to squeeze or elongate the cavity under modulation of the helical pitch of the helicenes. The CD spectroscopic results were supported by ion mobility mass spectrometry.

show abstract

mentioning

confidence: 99%

Chiral Self‐Discrimination and Guest Recognition in Helicene‐Based Coordination Cages

2019

View full text Add to dashboard Cite

show abstract

“…Most of the constructed self‐sorting systems are manipulated by noncovalent interactions, such as hydrogen‐bonding interactions, solvophobic effects, host–guest interactions, and metal–ligand interactions . However, self‐sorting in biological systems and bioinspired self‐assembly processes often rely on chiral molecules . By mimicking self‐sorting with hierarchical chirality and programmable functions in nature, molecular self‐assembly serves as a universal and efficient strategy for bottom‐up fabrication of nanostructures, because small synthetic molecules could be readily designed and endowed with functionality, and their self‐assembly could also be readily controlled by intermolecular noncovalent forces .…”

Section: Figurementioning

confidence: 70%

Self‐Sorting Double‐Network Hydrogels with Tunable Supramolecular Handedness and Mechanical Properties

et al. 2019

View full text Add to dashboard Cite

Self‐sorting, simultaneous, and orthogonal operations during the self‐assembly of complex mixtures are commonly observed for biological species but rare in artificial systems. In this study, we designed two gelators (LPF and LPFEG) containing the same chiral phenylalanine core but different achiral peripheral substituents to give hydrogels with opposite supramolecular handedness. When the two hydrogels were mixed, double‐network nanofibers with opposite handedness were formed by spontaneous high‐order organization and self‐sorting of the two gelators. The chiroptical activity of the double‐network hydrogels could be tuned by varying the molar ratio of LPF and LPFEG in the mixture, thus showing that the two gelators were highly independent of each other. Enhanced mechanical properties were observed for the interpenetrating networks when the LPF/LPFEG molar ratio was 3:7, with a more than fourfold increase in both the storage (G′) and loss modulus (G′′) relative to those of the individual hydrogels.

show abstract

“…The use of racemic substrates in cycloimination reactions often provides complex mixtures of diastereoisomers. Chiral self‐sorting is achieved in those DCC‐based reactions for which the products significantly differ in symmetry and hence in rotational entropy …”

Section: Methodsmentioning

confidence: 99%

“…Chiral self-sorting is achieved in those DCC-based reactions for which the products significantly differ in symmetry and hence in rotationale ntropy. [6,7] Due to the diequatorial position of amino groups and skeleton rigidity, trans-1,2-diaminocyclohexane (DACH, 1)i st he amine of choice for cycloimination. Although the quantitative [3+ +3] cyclocondensationr eactions between 1 and variousa romatic 1,4-dialdehydes provide triangularm acrocycles( trianglimines) of symmetry and shape depending on the aldehyde structure, [8,9] the reactions utilizing 1,3-dialdehydes are less selective.…”

mentioning

confidence: 99%

One‐step Access to Resorcinsalens—Solvent‐Dependent Synthesis, Tautomerism, Self‐sorting and Supramolecular Architectures of Chiral Polyimine Analogues of Resorcinarene

Szymkowiak

Warżajtis

Rychłewska

et al. 2018

Chemistry A European J

View full text Add to dashboard Cite

Substituted 2,4- and 4,6-dihydroxyisophthalaldehydes were condensed with optically pure and racemic trans-1,2-diaminocyclohexane to form resorcinarene-like polyimine macrocycles (resorcinsalens), the structure and stoichiometry of which were controlled by the choice of the reaction medium. Particularly, the cyclocondensation reactions were driven by the solubility, tautomerization, or by social self-sorting. The resorcinsalens crystallized as inclusion compounds, in which the guest molecules were situated either in channels or in voids. In the highly hydrated crystals of one of the [2+2] macrocycles and chloroform-solvated crystals of a [4+4] product the channels were interconnected, as in zeolites, enabling possible migration of loosely bound solvent molecules in three dimensions. The association mode depended on the structural modification of the host molecule and the type of included solvent molecule(s).

show abstract

Making a Right or Left Choice: Chiral Self-Sorting as a Tool for the Formation of Discrete Complex Structures

Cited by 154 publications

References 174 publications

Chiral Self‐Discrimination and Guest Recognition in Helicene‐Based Coordination Cages

Chiral Self‐Discrimination and Guest Recognition in Helicene‐Based Coordination Cages

Self‐Sorting Double‐Network Hydrogels with Tunable Supramolecular Handedness and Mechanical Properties

One‐step Access to Resorcinsalens—Solvent‐Dependent Synthesis, Tautomerism, Self‐sorting and Supramolecular Architectures of Chiral Polyimine Analogues of Resorcinarene

Contact Info

Product

Resources

About