MCM-41 and Na–magadiite silicates internal voids probed by pyrene fluorescence spectroscopy

Sena, Diniz M.; Pastore, Heloise O.; Pessine, Francisco Benedito Teixeira

doi:10.1039/b903273h

Cited by 8 publications

(2 citation statements)

References 33 publications

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“…Fused aromatic hydrocarbons (FAHs) including anthracene (ANT), pyrene (PYR), perylene (PER), and naphthacene (NAP) were used as dyes for incorporation into nanochannels. FAHs’ unique fluorescent properties within hosts undoubtedly are conformed by π···π stackings, hydrogen-bonds, and van der Waals interactions. , Solid-state photoluminescence (PL) measurements have been carried out in investigating FAHs entrapped within [Zn 3 ( L 6 ) 4 ] 6+ , though most likely this arises from a combination of π···π and van der Waals interactions between FAH molecules themselves and between FAH and the MOC skeletal structure inside anion-confining nanochannels . Tight host–guest contact is very important, because the nanochannel is relatively hydrophobic.…”

Section: Photochemical Applicationsmentioning

confidence: 99%

Recent Advances in Various Metal–Organic Channels for Photochemistry beyond Confined Spaces

Noh

Jung

2016

Acc. Chem. Res.

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Tailor-made molecular channel architectures are a hot issue in the fields of nanotechnology, molecular sieves, ion sensors, recognition, confined space reactors, and fluidic transport systems. Carbon nanotubes have been a particular focus, though they cannot easily be synthesized to predefined structures and sizes. Rational design and construction of molecular channel structures based on coordination chemistry has been recognized as a useful approach. Metal-organic channel (MOC) structures can be generated by utilizing, at least in principle, molecular self-assembly of metal ions as angular units with designed ligands as spacers. Recent developments in molecular channel chemistry include exciting advances in photochemical applications and supramolecular material functionality, in addition to general applications such as transport, diffusion and exchange, separation, gas storage, catalysis, and simple encapsulation. In order to carry out the diverse channel functionalities, a large number of studies have been conducted on the synthesis of robust and stable 3D coordination polymers, which show permanent porosity without any guest molecules within the channels, in that the robustness of the channel structures after removal of the solvate/guest molecules is of interest because the structural integrity of the extended structures must be maintained during the reactions. These compounds can be regarded as analogous to zeolites. This Account highlights advances in the construction, from metal cations and multidentate pyridyl ligands, of various MOCs and useful molecular materials as photoreaction platforms. We begin by discussing the fact that detailed proof-of-concept construction of various systematic MOC structures has been introduced mainly in terms of the metal ions as angular components and the pyridyl ligands as spacers. This approach leads to structural complexity of assembled MOC motifs such as metallamacrocycles, helical and cylindrical coordination polymers, vertical arrays of 1D coordination polymers, interweaving and eclipsed stacking of 2D coordination polymers, and typical 3D coordination polymers. Notwithstanding the diversity of their skeletal structures, confined spaces of the channels are suitable for the study of photochemical performances including radical trapping, photocyclopropanation, dye inclusion and energy transfer, and guest-to-host structural transmission. The key aspect of their utility is not only the preparation of photoresistant MOCs but also channel tuning for inclusion of photoactive guests. Guest molecules, which are compatible with the size, shape, and polarity of the channels, can be incorporated into the crystals, instead of simple organic solvents, thus giving rise to host-guest complexes in the solid state. Such MOC studies could facilitate the development of chemical sensors, new photocatalytic systems, and useful molecular photochemical reactors.

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Section: Photochemical Applicationsmentioning

confidence: 99%

Recent Advances in Various Metal–Organic Channels for Photochemistry beyond Confined Spaces

Noh

Jung

2016

Acc. Chem. Res.

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“…A large number of polarity scales have been introduced to evaluate the effect of environment polarity on the fluorescence spectra. 20,21 In our study, we included the solvent-dependence of the fluorescence spectra on permittivity as well, which is commonly used in other experimental techniques, such as e.g. potentiometry.…”

Section: The Effect Of Environment Polaritymentioning

confidence: 99%

Fluorescence of sanguinarine: spectral changes on interaction with amino acids

Janovská

Kubala

Šimánek

et al. 2010

Phys. Chem. Chem. Phys.

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The quaternary isoquinoline alkaloid, sanguinarine (SG) exhibits a wide range of biological activities. This study examines spectral changes expected from SG binding to proteins. Fluorescence spectra of the cationic form of sanguinarine (SG(+)) are sensitive to environment polarity. On the other hand, spectra of the neutral form of sanguinarine, pseudobase (SGOH) and dihydrosanguinarine (DHSG, the first metabolite of SG) exhibit higher sensitivity to the ability of solvent to form a solute-to-solvent hydrogen bonds. Interaction with cysteine has been the only mode of SG binding to enzymes that has been considered so far. In reality, our experiments have revealed spectral changes on specific interactions of SG(+) with Cys, Glu and Tyr in the protic environment and with Arg and Glu in the aprotic environment. We have also detected interactions of SGOH with Cys in the protic environment and with Cys, Glu and Lys in the aprotic environment. The DHSG spectra were only altered in the presence of the Cys analog in the protic environment. We have also demonstrated that spectral change analysis can aid investigation of SG/DHSG interactions with proteins and we were able to identify SG(+)-binding site on Na(+)/K(+)-ATPase.

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Organization and Energy Transfer of Fused Aromatic Hydrocarbon Guests within Anion‐Confining Nanochannel MOFs

et al. 2015

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The self-assembly of Zn II ions with 1,3,5-tris(isonicotinoyloxyethyl)cyanurate produces new topological (4 2 ·12 4 ) 3 (4 3 ) 4 2D metal-organic frameworks (MOFs) with anion-confining cages.T he eclipsed assembly of each 2D MOF by p-p stackingo fc yanurate moieties (3.352(5) ) forms 3D MOFs consisting of nanochannels (10.5 ). Twoof the three anions are confined in each peanut-type cage, resulting in hydrophobicity of the nanochannels.T he hydrophobic nanochannel effectively adsorbs awide range of fused aromatic hydrocarbons (FAHs) as monomers or dimers, rendering it potentially highly useful as an energy-transfer material.

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MCM-41 and Na–magadiite silicates internal voids probed by pyrene fluorescence spectroscopy

Cited by 8 publications

References 33 publications

Recent Advances in Various Metal–Organic Channels for Photochemistry beyond Confined Spaces

Recent Advances in Various Metal–Organic Channels for Photochemistry beyond Confined Spaces

Fluorescence of sanguinarine: spectral changes on interaction with amino acids

Organization and Energy Transfer of Fused Aromatic Hydrocarbon Guests within Anion‐Confining Nanochannel MOFs

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