Synthesis, X-ray, and Spectroscopic Study of Dissymmetric Tetrahedral Zinc(II) Complexes from Chiral Schiff Base Naphthaldiminate Ligands with Apparent Exception to the ECD Exciton Chirality

Enamullah, Mohammed; Makhloufi, Gamall; Ahmed, Rifat; Joy, Baitul Alif; Islam, Mohammad Ariful; Padula, Daniele; Hunter, Howard N.; Pescitelli, Gennaro; Janiak, Christoph

doi:10.1021/acs.inorgchem.6b00403

Cited by 48 publications

(140 citation statements)

References 150 publications

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“…5c). This very high stability is in stark contrast to the typical tetrahedral zinc complexes which have been reported to undergo an instantaneous stereoinversion 30,31 . This result demonstrates the effectiveness of the design of L 2− in slowing down stereoinversion, even when the tetrahedral four-coordinate structure has a labile coordination site.…”

Section: Resultscontrasting

confidence: 65%

Asymmetric construction of tetrahedral chiral zinc with high configurational stability and catalytic activity

et al. 2020

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Chiral metal complexes show promise as asymmetric catalysts and optical materials. Chiral-at-metal complexes composed of achiral ligands have expanded the versatility and applicability of chiral metal complexes, especially for octahedral and half-sandwich complexes. However, Werner-type tetrahedral complexes with a stereogenic metal centre are rarely used as chiral-at-metal complexes because they are too labile to ensure the absolute configuration of the metal centre. Here we report the asymmetric construction of a tetrahedral chiral-at-zinc complex with high configurational stability, using an unsymmetric tridentate ligand. Coordination/substitution of a chiral auxiliary ligand on zinc followed by crystallisation yields an enantiopure chiral-only-at-zinc complex (> 99% ee). The enantiomer excess remains very high at 99% ee even after heating at 70 °C in benzene for one week. With this configurationally stable zinc complex of the tridentate ligand, the remaining one labile site on the zinc can be used for a highly selective asymmetric oxa-Diels-Alder reaction (98% yield, 87% ee) without substantial racemisation.

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Section: Resultscontrasting

confidence: 65%

Asymmetric construction of tetrahedral chiral zinc with high configurational stability and catalytic activity

et al. 2020

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“…The main objective of XRD is to determine the suggested structure of the metal complex and considered a further evidence about the structure. Previous reports mentioned that the transition metal complexes commonly are crystalline in nature and/or amorphous in nature with tetrahedral, octahedral or square planar geometry . (Figure S5; supplementary material) shows the XRD patterns of La‐MOF ( M1 and M2) which recorded between 2θ ranging from 3‐80 o .…”

Section: Resultsmentioning

confidence: 99%

A novel nano‐size lanthanum metal–organic framework based on 5‐amino‐isophthalic acid and phenylenediamine: Photoluminescence study and sensing applications

Sheta

El‐Sheikh

Abd-Elzaher

et al. 2019

Applied Organom Chemis

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In this paper, a novel lanthanum metal–organic framework La‐MOF was prepared via hydrothermal and reflux methods. The La‐MOF was achieved through the reaction of a 5‐amino‐isophthalic acid with 1, 2‐phenylenediamine and lanthanum chloride. The prepared La‐MOF structure was confirmed by XRD, mass spectrometry, IR, UV–Vis and elemental analysis, whereas the size, and morphology was examined by FE‐SEM/EDX and HR‐TEM. The results indicated that the La‐MOF prepared via both methods have the same structure and composition. Meanwhile, the MOF yield, reaction time, morphology, physiochemical and sensing properties were highly depended on the used preparation method. The photoluminescence (PL) study was carried out for the La‐MOF, and the results showed that La‐MOF exhibits strong emission at 558 nm after excitation at 369 nm. Moreover, the PL data indicating that the La‐MOF has highly selective sensing properties for iron (III) competing with different metal ions. The Stern‐Völmer graph shows a linear calibration curve which achieved over a concentration range 1.0–500 μM of Fe3+ with a correlation coefficient, detection, and quantitation limits 0.998, 1.35 μM and 4.08 μM, respectively. According to the remarkable quenching of the PL intensity of La‐MOF using various concentrations of Fe3+, it was successfully used as a sensor for Fe3+detecting in different water resources (pure and waste) samples. The quenching mechanism was studied and it has a dynamic type and due to efficient energy transfer between the La‐MOF and Fe3+.

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“…Recently, we have discovered that chromophores with a “curved” conjugated aromatic system, such as BODIPY and phenanthrene, are generally unsuited for straightforward exciton chirality applications because of their large intrinsic magnetic transition dipole moments . Another possible source of error is the incorrect assumption that the exciton coupling potential is necessarily positive . Apart from these few specific issues, the application of ECM is safe and unambiguous when the molecular conformation is established, the chromophores are strong, and their transitions well known.…”

Section: Resultsmentioning

confidence: 99%

“…43,44 Another possible source of error is the incorrect assumption that the exciton coupling potential is necessarily positive. 45,46 Apart from these few specific issues, the application of ECM is safe and unambiguous when the molecular conformation is established, the chromophores are strong, and their transitions well known. This happens in fact for several chiroptical probes purposely developed for the so-called exciton chirality derivatization approach, such as benzoate, p-substituted benzoate, cinnamate, naphthoate, anthroate, and so on.…”

Section: Remarks On the Application Of The Exciton Chirality Methodsmentioning

confidence: 99%

Exciton coupling between enones: Quassinoids revisited

Bari

2017

Chirality

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The electronic circular dichroism (ECD) spectra of two previously reported quassinoids containing a pair of enone chromophores are revisited to gain insight into the consistency and applicability of the exciton chirality method. Our study is based on time-dependent Density Functional Theory calculations, transition and orbital analysis, and numerical exciton coupling calculations. In quassin (1) the enone/enone exciton coupling is quasi-degenerate, yielding strong rotational strengths that account for the observed ECD spectrum in the enone π-π* region. In perforalactone C (2) the nondegenerate coupling produces weak rotational strengths, and the ECD spectrum is dominated by other mechanisms of optical activity. We remark the necessity of a careful application of the nondegenerate exciton coupling method in similar cases.

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Synthesis, X-ray, and Spectroscopic Study of Dissymmetric Tetrahedral Zinc(II) Complexes from Chiral Schiff Base Naphthaldiminate Ligands with Apparent Exception to the ECD Exciton Chirality

Cited by 48 publications

References 150 publications

Asymmetric construction of tetrahedral chiral zinc with high configurational stability and catalytic activity

Asymmetric construction of tetrahedral chiral zinc with high configurational stability and catalytic activity

A novel nano‐size lanthanum metal–organic framework based on 5‐amino‐isophthalic acid and phenylenediamine: Photoluminescence study and sensing applications

Exciton coupling between enones: Quassinoids revisited

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