362 research outputs found
Nanocomposites of Carbon Nanotubes and Semiconductor Nanocrystals as Advanced Functional Material with Novel Optoelectronic Properties
Semiconductor nanoparticles of very small size, or quantum dots, exhibit fascinating physical properties, completely different from their bulk varieties, mostly because of the quantum confinement effect. Due to their modified band structure, they particularly show attractive optoelectronic characteristics. Carbon nanotubes are a class of nanomaterials, which also possess wonderful optoelectronic properties and can revolutionize modern semiconductor technology to a great extent. Carbon nanotube field-effect transistors (CNTFETs) can replace standard MOSFETs in an array of devices and can function in a more effective way. When these two optoelectronic components combine together in nanocomposites, one may get advanced optoelectronic devices for widespread application in sensors, solar cells, energy storage devices, light-emitting diodes, electrocatalysts, etc
Green Synthesis of Silver Nanoparticles and the Study of Optical Properties
The synthesis of silver nanoparticles of varying size has been achieved using different molar concentrations of NaOH while the effect of changing the temperature has been studied. AgNO3, gelatine, glucose and NaOH are used as a silver precursor, stabilizer, reducing agent and accelerator respectively. The synthesized nanoparticles have been characterized by a FESEM study, Xâray diffractometry, Raman spectroscopy and UVâvis spectroscopy. The colloidal sols of the silver nanoparticles in a biopolymer gelatine show strong surface plasmon resonance absorption peaks. The visible photoluminescence emission from the synthesized silver nanocrystals has been recorded within the wavelength range of 400â600 nm under UV excitation. The synthesized nanoparticles may be extremely useful in making biosensor devices as well as for other applications
Religiosity vs. well-being effects on investor behavior
The authors thank Mustafa Disli, the Editor of the journal and the reviewers for their precious remarksPeer reviewedPostprin
Cognitive-academic language proficiency and language acquisition in bilingual instruction : with an outlook on a university project in Albania
Based on the concepts of bilingual education of Cummins, this paper
explores the contribution of cognitive-academic language proficiency to the
acquisition of a second language in instructional contexts. Cummins' threshold
hypothesis is interpreted not as referring to an unspecified level of language
competence presupposed for positive development in bilingual instructional
contexts but as referring to an adequate level of cognitive-academic proficiency
that allows sufficient orientation in the proceedings a/the classroom. The analysis
of a sample text taken from a textbook for fourth grade illustrates this paint and
leads to a discussion of consequences for the language classroom. In the last part
of the paper educational practices in Albania are considered in this context." A
review of a joint project undertaken by the University of Graz in Austria and the
University of Shkoder in Albania, shows that cognitive academic proficiency is
along with situational and motivational factors a key element determining success
in educational contexts, where a foreign language - in this case German - is used
as a language of instruction.peer-reviewe
PI3K/AKT/mTOR inhibition in combination with doxorubicin is an effective therapy for leiomyosarcoma.
BackgroundLeiomyosarcoma (LMS) is a common type of soft tissue sarcoma that responds poorly to standard chemotherapy. Thus the goal of this study was to identify novel selective therapies that may be effective in leiomyosarcoma by screening cell lines with a small molecule library comprised of 480 kinase inhibitors to functionally determine which signalling pathways may be critical for LMS growth.MethodsLMS cell lines were screened with the OICR kinase library and a cell viability assay was used to identify potentially effective compounds. The top 10 % of hits underwent secondary validation to determine their EC50 and immunoblots were performed to confirm selective drug action. The efficacy of combination drug therapy with doxorubicin (Dox) in vitro was analyzed using the Calcusyn program after treatment with one of three dosing schedules: concurrent treatment, initial treatment with a selective compound followed by Dox, or initial treatment with Dox followed by the selective compound. Single and combination drug therapy were then validated in vivo using LMS xenografts.ResultsCompounds that targeted PI3K/AKT/mTOR pathways (52 %) were most effective. EC50s were determined to validate these initial hits, and of the 11 confirmed hits, 10 targeted PI3K and/or mTOR pathways with EC50 values <1 ÎźM. We therefore examined if BEZ235 and BKM120, two selective compounds in these pathways, would inhibit leiomyosarcoma growth in vitro. Immunoblots confirmed on-target effects of these compounds in the PI3K and/or mTOR pathways. We next investigated if there was synergy with these agents and first line chemotherapy doxorubicin (Dox), which would allow for earlier introduction into patient care. Only combined treatment of BEZ235 and Dox was synergistic in vitro. To validate these findings in pre-clinical models, leiomyosarcoma xenografts were treated with single agent and combination therapy. BEZ235 treated xenografts (n = 8) demonstrated a decrease in tumor volume of 42 % whereas combining BEZ235 with Dox (n = 8) decreased tumor volume 68 % compared to vehicle alone.ConclusionsIn summary, this study supports further investigation into the use of PI3K and mTOR inhibitors alone and in combination with standard treatment in leiomyosarcoma patients
Mixed micelles and gels of a hydrophilic poloxamine (Tetronic 1307) and miltefosine: Structural characterization by small-angle neutron scattering and in vitro evaluation for the treatment of leishmaniasis
Hypothesis/background: Tetronic is a family of four-armed amphiphilic block copolymers of polyethylene
oxide (PEO) and polypropylene oxide (PPO) that self-aggregate to form micelles and hydrogels. Due to
their temperature and pH-responsiveness, they are emerging as smart nanomaterials in the area of drug
delivery. Here we propose the use of Tetronic 1307 (T1307) as a nanocarrier of miltefosine (MF), a zwitterionic alkylphospholipid highly active against leishmaniasis, one of the most threating neglected tropical diseases. Given the amphiphilic nature of the drug, both surfactants can combine to form mixed
micelles, reducing the cytotoxicity of MF by lowering its dose and improving its internalization, hence
its antileishmanial effect.
Experiments: The structure of the T1307 micelles, MF micelles, mixed micelles and hydrogels, formed in
buffered solution (pH = 7.4) at different concentrations has been investigated in-depth by a combination
of small-angle neutron scattering (SANS), dynamic light scattering (DLS), fluorescence spectroscopy and
nuclear magnetic resonance methods (1D, 2D NOESY, and diffusion NMR). The cytotoxicity of the aggregates in macrophages has been assessed, as well as the antileishmanial activity in both Leishmania major
promastigotes and amastigotes.
Findings: T1307 and MF combine into mixed aggregates over a wide range of temperatures and compositions, forming ellipsoidal coreâshell mixed micelles. The shell is highly hydrated and comprises most
of the PEO blocks, while the hydrophobic core contains the PO blocks and the MF along with a fraction of
EO and water molecules, depending on the molar ratio in the mixture. The combination with T1307
amplified the leishmanicidal activity of the drug against both forms of the parasite and dramatically
reduced drug cytotoxicity. T1307 micelles also showed a considerable leishmanicidal activity without
exhibiting macrophage toxicity. These results support the use of T1307 as a MF carrier for the treatment
of human and animal leishmaniasis, in its different clinical forms
Detection of metastable electronic states by Penning trap mass spectrometry
State-of-the-art optical clocks achieve fractional precisions of
and below using ensembles of atoms in optical lattices or individual ions in
radio-frequency traps. Promising candidates for novel clocks are highly charged
ions (HCIs) and nuclear transitions, which are largely insensitive to external
perturbations and reach wavelengths beyond the optical range, now becoming
accessible to frequency combs. However, insufficiently accurate atomic
structure calculations still hinder the identification of suitable transitions
in HCIs. Here, we report on the discovery of a long-lived metastable electronic
state in a HCI by measuring the mass difference of the ground and the excited
state in Re, the first non-destructive, direct determination of an electronic
excitation energy. This result agrees with our advanced calculations, and we
confirmed them with an Os ion with the same electronic configuration. We used
the high-precision Penning-trap mass spectrometer PENTATRAP, unique in its
synchronous use of five individual traps for simultaneous mass measurements.
The cyclotron frequency ratio of the ion in the ground state to the
metastable state could be determined to a precision of , unprecedented in the heavy atom regime. With a lifetime of about 130
days, the potential soft x-ray frequency reference at has a linewidth of only , and one of the highest electronic quality factor
() ever seen in an experiment. Our low
uncertainty enables searching for more HCI soft x-ray clock transitions, needed
for promising precision studies of fundamental physics in a thus far unexplored
frontier
Unusual, stable replicating viruses generated from mumps virus cDNA clones
The authors have acknowledged funding from a Wellcome Trust grant 101788/Z/13/Z to RER and funding from the respective universities for studentships, Queenâs University Belfast to CGB, and University of St Andrews to EWF.In reverse genetic experiments we have isolated recombinant mumps viruses (rMuV) that carry large numbers of mutations clustered in small parts of their genome, which are not caused by biased hyper-mutation. In two separate experiments we obtained such recombinant viruses: one virus had 11 mutations in the V/P region of the genome; the other, which also contained an extra transcription unit encoding green fluorescent protein (EGFP), had 32 mutations in the N gene. These specific sets of mutations have not been observed in naturally occurring MuV isolates. Unusually, the vast majority of the mutations (48/51) were synonymous. On passage in Vero cells and human B-LCL cells, a B lymphocyte-like cell line, these mutations appear stable as no reversion occurred to the original consensus sequence, although mutations in other parts of the genome occurred and changed in frequency during passage. Defective interfering RNAs accumulate in passage in Vero cells but not in B-LCL cells. Interestingly, in all passaged samples the level of variation in the EGFP gene is the same as in the viral genes, though it is unlikely that this gene is under any functionality constraint. What mechanism gave rise to these viruses with clustered mutations and their stability remains an open question, which is likely of interest to a wider field than mumps reverse genetics.Publisher PDFPeer reviewe
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