DNA-encapsulated silver nanodots as ratiometric luminescent probes for hypochlorite detection

Strong and site selective red-emitting photoluminescent/MRI multi-functional KLa(0.95−x)GdxF4:Eu3+ (x = 0–0.4) bio-compatible nanomaterials for targeted in-vitro liver cancer cell imaging.

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Mechanistic Insight of Sensing Hydrogen Phosphate in Aqueous Medium by Using Lanthanide(III)-Based Luminescent Probes

Nanomaterials ◽

10.3390/nano11010053 ◽

2020 ◽

Vol 11 (1) ◽

pp. 53

Author(s):

Jashobanta Sahoo ◽

Santlal Jaiswar ◽

Pabitra B. Chatterjee ◽

Palani S. Subramanian ◽

Himanshu Sekhar Jena

Keyword(s):

Drug Discovery ◽

Aqueous Medium ◽

Hydrogen Phosphate ◽

Heterocyclic Ligand ◽

Luminescent Probes ◽

Mechanistic Insight ◽

Sensitivity And Selectivity ◽

Spectrophotometric Titrations ◽

Ethanesulfonic Acid ◽

High Degree

The development of synthetic lanthanide luminescent probes for selective sensing or binding anions in aqueous medium requires an understanding of how these anions interact with synthetic lanthanide probes. Synthetic lanthanide probes designed to differentiate anions in aqueous medium could underpin exciting new sensing tools for biomedical research and drug discovery. In this direction, we present three mononuclear lanthanide-based complexes, EuLCl3 (1), SmLCl3 (2), and TbLCl3 (3), incorporating a hexadentate aminomethylpiperidine-based nitrogen-rich heterocyclic ligand L for sensing anion and establishing mechanistic insight on their binding activities in aqueous medium. All these complexes are meticulously studied for their preferential selectivities towards different anions such as HPO42−, SO42−, CH3COO−, I−, Br−, Cl−, F−, NO3−, CO32−/HCO3−, and HSO4− at pH 7.4 in aqueous HEPES (2-[4-(2-hydroxyethyl)piperazin-1-yl]ethanesulfonic acid) buffer. Among the anions scanned, HPO42− showed an excellent luminescence change with all three complexes. Job’s plot and ESI-MS support the 1:2 association between the receptors and HPO42−. Systematic spectrophotometric titrations of 1–3 against HPO42− demonstrates that the emission intensities of 1 and 2 were enhanced slightly upon the addition of HPO42− in the range 0.01–1 equiv and 0.01–2 equiv., respectively. Among the three complexes, complex 3 showed a steady quenching of luminescence throughout the titration of hydrogen phosphate. The lower and higher detection limits of HPO42− by complexes 1 and 2 were determined as 0.1–4 mM and 0.4–3.2 mM, respectively, while complex 3 covered 0.2–100 μM. This concludes that all complexes demonstrated a high degree of sensitivity and selectivity towards HPO42−.

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Efficient electrocatalytic nitrogen reduction to ammonia with aqueous silver nanodots

Communications Chemistry ◽

10.1038/s42004-021-00449-7 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Wenyi Li ◽

Ke Li ◽

Yixing Ye ◽

Shengbo Zhang ◽

Yanyan Liu ◽

...

Keyword(s):

Active Sites ◽

Theoretical Calculations ◽

Current Collector ◽

Electrochemical Reactor ◽

Reduction Reaction ◽

Solution Ph ◽

Faradaic Efficiency ◽

Yield Rate ◽

Silver Nanodots ◽

Ti Mesh

AbstractThe electrocatalytic nitrogen (N2) reduction reaction (NRR) relies on the development of highly efficient electrocatalysts and electrocatalysis systems. Herein, we report a non-loading electrocatalysis system, where the electrocatalysts are dispersed in aqueous solution rather than loading them on electrode substrates. The system consists of aqueous Ag nanodots (AgNDs) as the catalyst and metallic titanium (Ti) mesh as the current collector for electrocatalytic NRR. The as-synthesized AgNDs, homogeneously dispersed in 0.1 M Na2SO4 solution (pH = 10.5), can achieve an NH3 yield rate of 600.4 ± 23.0 μg h−1 mgAg−1 with a faradaic efficiency (FE) of 10.1 ± 0.7% at −0.25 V (vs. RHE). The FE can be further improved to be 20.1 ± 0.9% at the same potential by using Ti mesh modified with oxygen vacancy-rich TiO2 nanosheets as the current collector. Utilizing the aqueous AgNDs catalyst, a Ti plate based two-electrode configured flow-type electrochemical reactor was developed to achieve an NH3 yield rate of 804.5 ± 30.6 μg h−1 mgAg−1 with a FE of 8.2 ± 0.5% at a voltage of −1.8 V. The designed non-loading electrocatalysis system takes full advantage of the AgNDs’ active sites for N2 adsorption and activation, following an alternative hydrogenation mechanism revealed by theoretical calculations.

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The design of responsive luminescent lanthanide probes and sensors

Chemical Society Reviews ◽

10.1039/d1cs00310k ◽

2021 ◽

Author(s):

David Parker ◽

Jack D. Fradgley ◽

Ka-Leung Wong

Keyword(s):

Design Principles ◽

Luminescent Probes ◽

The Creation

The design principles that guide the creation of responsive lanthanide luminescent probes are defined, classified and exemplified.

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Drug screening strategies using metal-based luminescent probes

TrAC Trends in Analytical Chemistry ◽

10.1016/j.trac.2021.116270 ◽

2021 ◽

pp. 116270

Author(s):

Guodong Li ◽

Chun Wu ◽

Dik-Lung Ma ◽

Chung-Hang Leung

Keyword(s):

Drug Screening ◽

Luminescent Probes ◽

Screening Strategies

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Synthesis, characterization and thermal decomposition kinetics as well as evaluation of luminescent properties of several 3D lanthanide coordination polymers as selective luminescent probes of metal ions

Synthetic Metals ◽

10.1016/j.synthmet.2012.07.025 ◽

2012 ◽

Vol 162 (21-22) ◽

pp. 1775-1788 ◽

Cited By ~ 8

Author(s):

Li-Rong Yang ◽

Shuang Song ◽

Huai-Min Zhang ◽

Lan-Zhi Wu

Keyword(s):

Thermal Decomposition ◽

Metal Ions ◽

Coordination Polymers ◽

Luminescent Properties ◽

Decomposition Kinetics ◽

Thermal Decomposition Kinetics ◽

Luminescent Probes ◽

Lanthanide Coordination Polymers

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Uniform Spheres of α-NaYF4:RE3+ (RE=Eu, Tb, Ce, Er, and Tm): Template-Free Synthesis, Multi-Color Photoluminescence, and Their Application in Cellular Imaging

Crystals ◽

10.3390/cryst10020119 ◽

2020 ◽

Vol 10 (2) ◽

pp. 119

Author(s):

Xiaofeng Fan ◽

Laiqin Gu ◽

Yiling Hu ◽

Qi Zhu

Keyword(s):

Near Infrared ◽

Infrared Emission ◽

Particle Sizes ◽

Hydrothermal Processing ◽

High Brightness ◽

Luminescent Probes ◽

Bio Imaging ◽

Template Free ◽

Near Infrared Emission

Uniformly dispersed luminescent probes with a high brightness and high resolution are desired in bio imaging fields. Here, ~100 nm sized and well-dispersed spheres of RE3+ doped α-NaYF4 (rare earth (RE) = Eu, Tb, Ce, Er, and Tm) have been facile synthesized through hydrothermal processing in the absence of a template, followed by a proper annealing. The processing window of the cubic structured spheres is wide, because the hydrothermal products are independent of the processing conditions, including reaction time and temperature. The original morphology and crystal structure can be well retained with a calcination temperature up to 600 °C. However, calcination gives rise to a reduction of particle sizes, as a result of the crystallite growth and densification. Under ultraviolet radiation, α-NaYF4:RE3+ spheres show characteristic f-f emissions of RE3+ (RE = Eu, Tb, Ce, Er, and Tm), and exhibit orange red, green, ultraviolet (UV), blue green, and blue emissions, respectively. Mainly because of the near-infrared emission at ~697 nm (5D0→7F4 transitions of Eu3+), the successful imaging of macrophages was achieved by NH2-NaYF4:Eu3+ probes, indicating their excellent imaging capacity for cells in vitro.

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Luminescent cyclometallated platinum(ii) complexes: highly promising EGFR/DNA probes and dual-targeting anticancer agents

Inorganic Chemistry Frontiers ◽

10.1039/c7qi00346c ◽

2018 ◽

Vol 5 (2) ◽

pp. 413-424 ◽

Cited By ~ 21

Author(s):

Yang Zhang ◽

Qun Luo ◽

Wei Zheng ◽

Zhaoying Wang ◽

Yu Lin ◽

...

Keyword(s):

Anticancer Agents ◽

Platinum Complexes ◽

Living Cells ◽

Dna Probes ◽

High Potential ◽

Luminescent Probes ◽

Dual Targeting

Cyclometallated platinum complexes bearing 4-anilinoquinazolines exhibit high potential as luminescent probes for EGFR/DNA in living cells and dual-targeting anticancer agents.

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