On Tuning the Fluorescence Emission of Porphyrin Free Bases Bonded to the Pore Walls of Organo-Modified Silica

Quiroz-Segoviano, R.I.Y.; Serratos, Iris N.; Rojas, Fernando; Tello-Solís, Salvador R.; Sosa-Fonseca, R.; Medina-Juárez, Obdulia; Menchaca‐Campos, Carmina; García-Sánchez, Miguel A.

doi:10.3390/molecules19022261

Cited by 32 publications

(30 citation statements)

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“…This change might have been due to a change in the electronic structure in the porphyrin ring present in the chlorophyll molecules, because diols such as ethylene glycol can react with chlorophyll molecules to produce chlorophyllides . It has also been reported that the fluorescence intensity of the porphyrin ring‐containing molecules depends on the type of organic group attached to the porphyrin system …”

Section: Resultsmentioning

confidence: 99%

Dual emission carbon dots from carotenoids: Converting a single emission to dual emission

et al. 2019

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Dual emission carbon dots have a high potential for use as fluorescence-based sensors with higher selectivity and sensitivity. This study demonstrated the possibility of conversion of a biological molecular system with a single emission peak to a double emission carbon dots system. This report is the first to describe the synthesis of dual emission carbon dots by tuning the electronic environment of a conjugated system.Here we prepared carbon dots from a natural extract, from which carotenoids were used as a new source for carbon dots. Formation of the carbon dots was confirmed by images obtained under a transmission electron microscope as well as from a dynamic light scattering study. The prepared carbon dots system was characterized and its optical property was monitored. The study showed that, after irradiation with microwaves, the fluorescence intensity of the whole system changed, without any change in the original peak position of the carotenoid but with the appearance of an additional peak. A Fourier transform infrared study confirmed breaking of the conjugated system. When using ethylene glycol as a surface passivating agent added to these carotenoid carbon dots, the dual emission spectra became more distinct.

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Section: Resultsmentioning

confidence: 99%

Dual emission carbon dots from carotenoids: Converting a single emission to dual emission

et al. 2019

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“…The absence of traces of porphyrin complexes in the solvents employed to wash the ZrO 2 xerogel samples, together with the distinctive UV-vis signal pathways, demonstrate that, in both cases, the porphyrinic complex has been successfully bonded to the pore network in stable and monomeric respect to silica xerogels encapsulating CoT(p-COOH)PP species covalently bonded to the pore network, the average pore width was 3.1 nm [44,45]; i.e., a quantity that is very similar to the value determined for ZrO 2 xerogels. This similitude results obvious, if considering that the distance between the two opposite silicon atoms (d Si-Si ) in the CoP-F precursor, ranges from 3 to 3.25 nm (Fig.…”

Section: +mentioning

confidence: 95%

“…This rate is responsible of the creation of very small ZrO 2 precursory nucleating centers; whose formation insides on the textural parameters and pore morphology as follows; the large number of small particles creates compact aggregates, which are not giving access to their interior volume given the very small pore throats that connect them with neighboring pore cavities. Importantly, the porous structure can evolution from depicting a Type I to a Type IV isotherm by two alternative ways: (i) by increasing the annealing temperature of the xerogel [43] or (ii) by inserting relatively large macrocyclic molecules in the xerogel network as for instance dodecyltrietoxysilane [44]. The porous structure is opened up by the evolution of volatile materials still remaining in the xerogel structure(e.g.…”

Section: Nano Hybridsmentioning

confidence: 99%

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Effects of the Covalent Bonding Entrapment of Tetrapyrrole Macrocycles Inside Translucent Monolithic ZrO<sub>2</sub> Xerogels

Salas‐Banales

Quiroz-Segoviano

Rojas-González

et al. 2014

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Abstract. While searching for adequate sol-gel methodologies for successfully trapping in monomeric and stable form either porphyrins or phthalocyanines, inside translucent monolithic silica xerogels, it was discovered that the interactions of these trapped tetrapyrrole macrocycles with Si-OH surface groups inhibit or spoil the efficient display of physicochemical, especially optical, properties of the confined species. Consequently, we have developed strategies to keep the inserted macrocycle species as far as possible from these interferences by substituting the surface -OH groups for alkyl or aryl groups or trapping these species inside alternative metal oxide networks, such as ZrO 2 , TiO 2 , and Al 2 O 3 . In the present manuscript, we present, for the first time to our knowledge, a methodology for preserving the spectroscopic characteristics of metal tetrasulfophthalocyanines and cobalt tetraphenylporphyrins trapped inside the pores of ZrO 2 xerogels. The results obtained are contrasting with analogous silica systems and demonstrate that, in ZrO 2 networks, the macrocyclic species remain trapped in stable and monomeric form while keeping their original spectroscopic characteristics in a better way than when captured inside silica systems. This outcome imply a lower hydrophilic character linked to the existence of a smaller amount of surface hydroxyl groups in ZrO 2 Nano HybridsOnline : 2014-08-18 ISSN: 2234-9871, Vol. 7, pp 1-34 doi:10.4028/www.scientific.net/NH.7.1 © 2014 This is an open access article under the CC-BY 4.0 license (https://creativecommons.org/licenses/by/4.0/) networks, if compared to analogous SiO 2 xerogel systems. The development and study of the possibility of trapping or fixing synthetic or natural tetrapyrrole macrocycles inside inorganic networks suggest the possibility of synthesizing hybrid solid systems suitable for important applications in technological areas such as optics, catalysis, sensoring and medicine

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“…These compounds have diverse applications, including medicinal [ 1 ], electronic devices [ 2 ], energy conversion [ 3 ], catalysis [ 4 ], and others [ 5 , 6 , 7 ]. The range of applications for porphyrins can be attributed to some features observed in these molecules, including invariable planar shapes, effective absorption and emission, and high stability under different hazardous conditions [ 8 , 9 , 10 , 11 ]. Despite the numerous applications for porphyrins, their use in biomedical devices can be highlighted as one of their most prominent features.…”

Section: Introductionmentioning

confidence: 99%

A New Protocol for the Synthesis of New Thioaryl-Porphyrins Derived from 5,10,15,20-Tetrakis(pentafluorophenyl)porphyrin: Photophysical Evaluation and DNA-Binding Interactive Studies

et al. 2018

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A new protocol for the preparation of thioaryl-porphyrins is described. The compounds were prepared from different disulfides employing NaBH4 as a reducing agent. The methodology allowed the preparation of four different thioaryl-porphyrins in very-good to excellent yields under soft conditions, such as short reaction times and smooth heating. Additionally, the photophysical properties of new compounds were determined and experimental and theoretical DNA interactions were assessed.

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On Tuning the Fluorescence Emission of Porphyrin Free Bases Bonded to the Pore Walls of Organo-Modified Silica

Cited by 32 publications

References 45 publications

Dual emission carbon dots from carotenoids: Converting a single emission to dual emission

Dual emission carbon dots from carotenoids: Converting a single emission to dual emission

Effects of the Covalent Bonding Entrapment of Tetrapyrrole Macrocycles Inside Translucent Monolithic ZrO<sub>2</sub> Xerogels

A New Protocol for the Synthesis of New Thioaryl-Porphyrins Derived from 5,10,15,20-Tetrakis(pentafluorophenyl)porphyrin: Photophysical Evaluation and DNA-Binding Interactive Studies

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