79 research outputs found
Construction of Lanthanide–Organic Frameworks from 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylate and Oxalate
Three novel isostructural lanthanide organic frameworks,
|(H<sub>2</sub>O)Â(H<sub>3</sub>O)|[LnÂ(HPyImDC)Â(OX)<sub>0.5</sub>Cl]
(Ln =
Pr (<b>1</b>), Nd (<b>2</b>), and Sm (<b>3</b>),
H<sub>3</sub>PyImDC = 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylic
acid, H<sub>2</sub>OX = oxalic acid) have been prepared under hydrothermal
conditions and characterized by single crystal X-ray diffraction,
elemental analysis, IR spectra, and thermogravimetric analysis. The
results of crystal structural analysis indicate that three compounds
are isomorphous 3D frameworks, which are constructed by lanthanide
polyhedral {LnNClO<sub>6</sub>}, 4-connected HPyImDC<sup>2–</sup> ligand and bridging OX<sup>2–</sup> ligand. The HPyImDC<sup>2–</sup> ligand offering its four oxygen atoms and one nitrogen
atom of the pyridyl group, and the OX<sup>2–</sup> ligand offering
all its four oxygen atoms coordinate with the lanthanide ions, which
is a key essential for constructing the 3D frameworks. Topological
analysis reveals that the 3D framework can be simplified into a 5-connected
network with the lanthanide ion as a unique node, possessing the rare <b>sqp</b> topology. Meanwhile, the luminescent properties of three
compounds in the solid state at room temperature are also investigated
A 52-year-old woman with papillary thyroid carcinoma.
<p>Longitudinal sonogram showing a 45-mm, ill-defined, hypoechoic solid nodule in the right thyroid lobe. A linear echogenic focus with reverse-triangle artifact (solid arrow), and a round echogenic focus with fine artifact (arrowhead), and a punctate echogenic foci (faint arrow) are seen (Type 3).</p
Highly Sensitive Two-Photon Sensing of Thrombin in Serum Using Aptamers and Silver Nanoparticles
Thrombin
plays an important role in pathological conditions. It
is important, however challenging, to detect thrombin in complex biological
media for clinical practice and diagnostic applications. Here we demonstrate
a label-free, fast, highly sensitive and selective two-photon sensing
scheme for detection of thrombin on the picomolar level. The assay
is based on interactions between thrombin and a DNA aptamer, which
induce aggregation of silver nanoparticles to display significantly
enhanced two-photon photoluminescence. The limit of detection (LOD)
of this two-photon sensing assay is as low as 3.1 pM in the buffer
solution, more than 400 times lower than that of the extinction method
(1.3 nM). The dynamic range of this method covers more than 4 orders
of magnitude. Furthermore, this two-photon sensing assay can be applied
to detection of thrombin in 100% fetal bovine serum with LOD of 1.8
nM. In addition to the unique advantages of two-photon sensing such
as deep penetration and localized detection, this method could be
potentially integrated with two-photon microscopy to offer additional
advantages of 3D detection and mapping for potential in vivo applications
Construction of Lanthanide–Organic Frameworks from 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylate and Oxalate
Three novel isostructural lanthanide organic frameworks,
|(H<sub>2</sub>O)Â(H<sub>3</sub>O)|[LnÂ(HPyImDC)Â(OX)<sub>0.5</sub>Cl]
(Ln =
Pr (<b>1</b>), Nd (<b>2</b>), and Sm (<b>3</b>),
H<sub>3</sub>PyImDC = 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylic
acid, H<sub>2</sub>OX = oxalic acid) have been prepared under hydrothermal
conditions and characterized by single crystal X-ray diffraction,
elemental analysis, IR spectra, and thermogravimetric analysis. The
results of crystal structural analysis indicate that three compounds
are isomorphous 3D frameworks, which are constructed by lanthanide
polyhedral {LnNClO<sub>6</sub>}, 4-connected HPyImDC<sup>2–</sup> ligand and bridging OX<sup>2–</sup> ligand. The HPyImDC<sup>2–</sup> ligand offering its four oxygen atoms and one nitrogen
atom of the pyridyl group, and the OX<sup>2–</sup> ligand offering
all its four oxygen atoms coordinate with the lanthanide ions, which
is a key essential for constructing the 3D frameworks. Topological
analysis reveals that the 3D framework can be simplified into a 5-connected
network with the lanthanide ion as a unique node, possessing the rare <b>sqp</b> topology. Meanwhile, the luminescent properties of three
compounds in the solid state at room temperature are also investigated
Aqueous Synthesis of Multidentate-Polymer-Capping Ag<sub>2</sub>Se Quantum Dots with Bright Photoluminescence Tunable in a Second Near-Infrared Biological Window
A new strategy for fabricating water-dispersible
Ag<sub>2</sub>Se quantum dots (QDs) is presented. A multidentate polymer
(MDP) was synthesized and used as a capping agent for Ag<sub>2</sub>Se QDs. The MDP-capping Ag<sub>2</sub>Se QDs were synthesized in
aqueous solution at room temperature, which are highly photoluminescent
in a second near-infrared (NIR-II) biological window and possess good
photostability. These readily prepared NIR-II fluorescent nanoprobes
have great potential for biomedical applications, especially useful
for in vivo imaging
Construction of Lanthanide–Organic Frameworks from 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylate and Oxalate
Three novel isostructural lanthanide organic frameworks,
|(H<sub>2</sub>O)Â(H<sub>3</sub>O)|[LnÂ(HPyImDC)Â(OX)<sub>0.5</sub>Cl]
(Ln =
Pr (<b>1</b>), Nd (<b>2</b>), and Sm (<b>3</b>),
H<sub>3</sub>PyImDC = 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylic
acid, H<sub>2</sub>OX = oxalic acid) have been prepared under hydrothermal
conditions and characterized by single crystal X-ray diffraction,
elemental analysis, IR spectra, and thermogravimetric analysis. The
results of crystal structural analysis indicate that three compounds
are isomorphous 3D frameworks, which are constructed by lanthanide
polyhedral {LnNClO<sub>6</sub>}, 4-connected HPyImDC<sup>2–</sup> ligand and bridging OX<sup>2–</sup> ligand. The HPyImDC<sup>2–</sup> ligand offering its four oxygen atoms and one nitrogen
atom of the pyridyl group, and the OX<sup>2–</sup> ligand offering
all its four oxygen atoms coordinate with the lanthanide ions, which
is a key essential for constructing the 3D frameworks. Topological
analysis reveals that the 3D framework can be simplified into a 5-connected
network with the lanthanide ion as a unique node, possessing the rare <b>sqp</b> topology. Meanwhile, the luminescent properties of three
compounds in the solid state at room temperature are also investigated
Highly Sensitive CO<sub>2</sub>‑Responsive Polymeric Microgels That Respond Within Seconds
In this work, polymeric
microgels with swift response to CO<sub>2</sub> are synthesized by
polymerization of tertiary-amine containing
methacrylate monomers (<i>N</i>,<i>N</i>-diethylaminoethyl
methacrylate, DEAEMA) and polyethylene glycol monomethyl ether acrylate
(PEGMA) as stabilizers. The obtained microgels are stable but very
sensitive to CO<sub>2</sub>, which can rapidly swell and further collapse
within 5 s upon bubbling of CO<sub>2</sub>, or within minutes in an
atmosphere of gaseous CO<sub>2</sub>. The protonation of the tertiary
amine groups in the presence of CO<sub>2</sub> induces sensitive swelling
and further irreversible collapse of the microgels due to the internal
charge repulsion and relatively low cross-linking density in the core
area of microgels. This rapid response to CO<sub>2</sub> may find
further applications in the fields of sensitive detection or responsive
loading and release upon CO<sub>2</sub> stimulus
Ratiometric and Time-Resolved Fluorimetry from Quantum Dots Featuring Drug Carriers for Real-Time Monitoring of Drug Release in Situ
An effective ratiometric and time-resolved
fluorimetry was described. On the basis of Förster resonance
energy transfer (FRET) between semiconductor quantum dots (QDs) and
fluorescent drugs, polyÂ(ethylene glycol)-modified QDs were successfully
prepared and further developed as QDs featuring carriers for real-time
monitoring of drug release in situ
Construction of Lanthanide–Organic Frameworks from 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylate and Oxalate
Three novel isostructural lanthanide organic frameworks,
|(H<sub>2</sub>O)Â(H<sub>3</sub>O)|[LnÂ(HPyImDC)Â(OX)<sub>0.5</sub>Cl]
(Ln =
Pr (<b>1</b>), Nd (<b>2</b>), and Sm (<b>3</b>),
H<sub>3</sub>PyImDC = 2-(pyridine-3-yl)-1<i>H</i>-4,5-imidazoledicarboxylic
acid, H<sub>2</sub>OX = oxalic acid) have been prepared under hydrothermal
conditions and characterized by single crystal X-ray diffraction,
elemental analysis, IR spectra, and thermogravimetric analysis. The
results of crystal structural analysis indicate that three compounds
are isomorphous 3D frameworks, which are constructed by lanthanide
polyhedral {LnNClO<sub>6</sub>}, 4-connected HPyImDC<sup>2–</sup> ligand and bridging OX<sup>2–</sup> ligand. The HPyImDC<sup>2–</sup> ligand offering its four oxygen atoms and one nitrogen
atom of the pyridyl group, and the OX<sup>2–</sup> ligand offering
all its four oxygen atoms coordinate with the lanthanide ions, which
is a key essential for constructing the 3D frameworks. Topological
analysis reveals that the 3D framework can be simplified into a 5-connected
network with the lanthanide ion as a unique node, possessing the rare <b>sqp</b> topology. Meanwhile, the luminescent properties of three
compounds in the solid state at room temperature are also investigated
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