A novel cerium(<scp>iii</scp>)–isatin Schiff base complex: spectrofluorometric and DFT studies and application as a kidney biomarker for ultrasensitive detection of human creatinine

Sheta, Sheta M.; Akl, Magda A.; Saad, H.-E. A.; El-Gharkawy, El-Sayed R. H.

doi:10.1039/c9ra10133k

Cited by 36 publications

(17 citation statements)

References 49 publications

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“…These make the nanomaterials very selective and sensitive tools for the detection of organic molecules and can be easily interacted with a biological target more efficiently than bulk materials. 20 Lanthanum complexes and MOFs vital examples for metal complexes, incubated in a considerable analytical application. For example, it is used for the detection of ascorbic acid in pharmaceutical preparations, 21 as chemosensors for nitrofurans, 22 iron( iii ), 23 and for anthelmintic drugs.…”

Section: Introductionmentioning

confidence: 99%

A novel nano-lanthanum complex: synthesis, characterization and application as a macrofuran chemosensor in pharmaceutical, biological and environmental samples

2021

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Section: Introductionmentioning

confidence: 99%

A novel nano-lanthanum complex: synthesis, characterization and application as a macrofuran chemosensor in pharmaceutical, biological and environmental samples

2021

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“…[23][24][25][26][27][28][29][30][31][32]. Different excellent physicochemical properties of the MOF-NPs make these nanomaterials are very sensitive and selective tools for bonding to biological and organic molecules and can be simply interacted moreeffective than bulk state materials [33]. In addition, distinctive properties make MOF-NPs have considerable several applications like sensing, biomedical, drug delivery gas separation/storage, catalysis, etc.…”

Section: Introductionmentioning

confidence: 99%

WITHDRAWN: Zn(II) Metal-organic Framework Nanoparticles: Synthesis, Characterization and Application as Optical Biosensor for Prostate-Specific Antigen

El‐Sheikh

2021

Preprint

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PSA, abbreviated of “Prostate-Specific Antigen” is widely used as a considered a significant cancer biomarker for diagnosing prostate cancer. Improvement of a fast, facile, and less cost with high accurate/sensitive/selective methodologies for the PSA determination is stock-still a challenge. In this work, we reported a simple biosensor based on a Zn(II) metal-organic framework nanoparticles (Zn-MOF-NPs) derived from reaction of zinc acetate with nano organic linker. The structure, morphology, and physicochemical properties of the prepared Zn(II)-MOF-NPs were definite using various spectroscopic and microanalytical tools as SEM-EDX, HR-TEM, XRD, XPS, elemental analysis, FT-IR, UV-vis spectroscopy, mass spectroscopy, thermogravimetric Analysis (DSC/TGA), and photoluminescence (PL). Obviously, the results revealed that the Zn(II)-MOF-NPs is chemical stable, highly selective and sensitive to PSA, without interferences with other common interfering analytes. The detection limit for PSA was 0.145 fg/mL, in a wide-linear range of concentrations (0.1 fg/mL-20 pg/mL), with a correlation coefficient 0.983. The Zn(II)-MOF-NPs was successfully used as an up-and-coming biosensor for PSA-monitoring and quantification in biological real samples (plasma/whole blood/serum) at clinical target concentration levels. Moreover, the present approach will help the human-beings from the hazard’s prostatic cancer through early discovery and diagnosis process via the detection of PSA at low limits of concentrations. Meantime, the interaction mechanism between the Zn(II)-MOF-NPs and PSA was well studied and investigated.

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“…In the meantime, the brightness of the CL was enhanced when the concentration of CLgens increased, and the film was brighter than the solution (Figure b). Figure c demonstrates the continuous red shift of λ em in P(MA- co -DMAA) accompanied by the increased λ ex , showing an excitation-dependent luminescence effect which is different from the traditional chromophores with TBC . According to the molecular photophysical theories, the radiative transition follows Kasha’s rule that the luminescence is only from the lowest excited state.…”

Section: Unusual Features Of CLmentioning

confidence: 94%

“…Figure 3c demonstrates the continuous red shift of λ em in P(MA-co-DMAA) accompanied by the increased λ ex , showing an excitation-dependent luminescence effect which is different from the traditional chromophores with TBC. 49 According to the molecular photophysical theories, the radiative transition follows Kasha's rule that the luminescence is only from the lowest excited state. The emission wavelength is permanent for one molecule with a fixed structure, so changing the λ ex will only affect the PL intensity but not λ em .…”

Section: Excitation-dependent Luminescencementioning

confidence: 99%

Through-Space Interactions in Clusteroluminescence

Zhang

Tang

2021

JACS Au

139

151

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Conventional π-conjugated luminophores suffer from problems such as emission quenching, biotoxicity, environmental pollution, etc. The emerging nonconjugated and nonaromatic clusteroluminogens (CLgens) are expected to overcome these stubborn drawbacks, so research of CLgens shows great significance not only for practical application but also for the construction of fundamental photophysical theories. This perspective summarizes the unusual features of CLgens in comparison to traditional chromophores, such as nonconjugated molecular structures, unmatched absorption and excitation, excitationdependent luminescence, multiple emission peaks, and roomtemperature phosphorescence. Different from the theory of through-bond conjugation in π-conjugated luminophores, through-space interactions, including through-space n•••n interaction and through-space n•••π interaction, are regarded as the emitting sources of nonconjugated CLgens. In addition, the formation of network clusters is proposed as an efficient strategy to improve the performance of CLgens, and their potential applications of anticounterfeiting, photoelectronic devices, and bioimaging are prospected.

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A novel cerium(iii)–isatin Schiff base complex: spectrofluorometric and DFT studies and application as a kidney biomarker for ultrasensitive detection of human creatinine

Abstract: A novel and promising Schiff base and Ce(iii)-complex were synthesized and fully characterized. A novel creatinine optical biosensor based on Ce(iii)-complex and could be a promising analytical tool and as a promising kidney biomarker.

Cited by 36 publications

References 49 publications

A novel nano-lanthanum complex: synthesis, characterization and application as a macrofuran chemosensor in pharmaceutical, biological and environmental samples

A novel nano-lanthanum complex: synthesis, characterization and application as a macrofuran chemosensor in pharmaceutical, biological and environmental samples

WITHDRAWN: Zn(II) Metal-organic Framework Nanoparticles: Synthesis, Characterization and Application as Optical Biosensor for Prostate-Specific Antigen

Through-Space Interactions in Clusteroluminescence

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