119 research outputs found
Monodisperse upconversion GdF3:Yb, Er rhombi by microwave-assisted synthesis
We have synthesized a variety of monodisperse colloidal GdF3:Yb, Er upconversion nanocrystals with different shape, size, and dopants by microwave-assisted synthesis. Typical upconversion emission from Er3+ was observed. In addition to highly monodisperse spherical particles, we were able to prepare monodispersed rhombic-shaped slices that showed a tendency for self-assembly into stacks
InP/ZnS Nanocrystals as Fluorescent Probes for the Detection of ATP
This article reports on a study on fluorescence adenosine triphosphate (ATP) detection by InP/ZnS quantum dots (QDs). We present a spectroscopic analysis displaying the effect of enzymatic reactions of glucose oxidase (GOX) and hexokinase (HEX) on the InP/ZnS quantum dots at physiological pH. The InP/ZnS quantum dots act as glucose sensors in the presence of GOX, Glu and ATP, and their luminescence quenches during the release of hydrogen peroxide from the reaction. However, in the presence of adenosine 5’ triphosphate, glucose, and HEX, a significant photobrightening of the InP/ZnS QDs is recorded. This is dependent on the concentration of ATP in the sample. The relationship between the ATP and the emission intensity of InP/ZnS nanocrystals is linear. The present results are the first to report the effect of different by-products released by these enzymatic reactions on the fluorescence of the InP/ZnS QDs
Molybdenum dichalcogenide cathodes for aluminium-ion batteries
Many successful battery electrodes are based on 2D-layered materials. We have
studied aluminium-ion batteries using molybdenum dichalcogenides: \ce{MoS2},
\ce{MoSe2} and MoSSe as active cathode materials. The batteries showed clear
discharge voltage plateaus in the ranges 1.6 - 1.4 V for \ce{MoS2} and
\ce{MoSe2}, and 0.6 - 0.5 V for MoSSe. \ce{MoS2} and \ce{MoSe2} have similar
crystal structures, interestingly we found that \ce{MoSe2} performed better
than \ce{MoS2}. MoSSe exhibited a higher specific capacity over \ce{MoS2} and
\ce{MoSe2}, but the energy density was lower than \ce{MoSe2} at a current rate
of 40 mA g. \ce{MoSe2} cells recorded a discharge capacity of 110
mAh g with an average potential in the range of 2.0 - 1.8 V and 1.5 -
0.8 V during discharge. The cells were stable at 100 mA g for over 200
cycles with 90\% coulombic efficiency.Comment: Energy Technology, 202
Blue shift of CdSe/ZnS nanocrystal-labels upon DNA-hybridization
Luminescence color multiplexing is one of the most intriguing benefits, which might occur by using semiconductor Quantum Dots (QDs) as labels for biomolecules. It was found, that the luminescence of QDs can be quenched, and replaced by a luminescence peak at approximately 460 nm on hybridization with certain regions of Arabidopsis thaliana tissue. This effect is site selective, and it is unclear whether it occurs due to an energy transfer process, or due to quenching and scattering of the excitation light. The article describes methods for phase-transfer of differently coloured, hydrophobically ligated QDs, coupling of DNA strands to the QD's surface, and hybridization of the labelled DNA to different cell types of Arabidopsis thaliana. The reason for the luminescence blue-shift was studied systematically, and narrowed down to the above mentioned causes
NiO Nanofibers as a Candidate for a Nanophotocathode
p-type NiO nanofibers have been synthesized from a simple electrospinning and sintering procedure. For the first time, p-type nanofibers have been electrospun onto a conductive fluorine doped tin oxide (FTO) surface. The properties of the NiO nanofibers have been directly compared to that of bulk NiO nanopowder. We have observed a p-type photocurrent for a NiO photocathode fabricated on an FTO substrate
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