Copper/silver-containing chalcogenides have recently attracted significant interest for their promising thermoelectric applications. In this article, we report the syntheses of five new layered quaternary Cu/Ag-containing chalcogenides: SrScCuSe3, SrScCuTe3, BaScCuSe3, BaScCuTe3,...
A new ternary telluride, Ba3ScTe5, with a pseudo one-dimensional structure, was synthesized at 1173 K by standard solid-state methods. A single-crystal X-ray diffraction study at 100(2) K shows the structure to be modulated. The structure of the subcell of Ba3ScTe5 crystallizes with two formula units in the hexagonal space group D 3 ,6h−P63/mcm with unit cell dimensions of a = b = 10.1190(5) Å and c = 6.8336(3) Å. The asymmetric unit of the subcell structure consists of four crystallographically independent sites: Ba1 (site symmetry: m2m), Sc1 (−3.m), Te1 (m2m), and Te2 (3.2). Its structure is made up of chains of 1 ,∞[ScTe3 3− ] that are separated by Ba 2+ cations. The Sc atoms are bonded to six Te1 atoms that form a slightly distorted octahedral geometry. The structure of subcell also contains linear infinite chains of Te2 with intermediate Te•••Te interactions. The superstructure of Ba3ScTe5 is incommensurate and was solved in the hexagonal superspace group P−6(00γ)0 with a = 10.1188(3) Å and c = 6.8332(3) Å and a modulation vector of q = 0.3718(2)c*. The arrangement and coordination geometries of atoms in the superstructure are very similar to those in the substructure. However, the main difference is that the infinite chains of Te in the superstructure are distorted owing to the formation of long-and short-bonded pairs of Te atoms. The presence of these chains with intermediate Te•••Te interactions makes the assignment of formal oxidation states arbitrary. The optical absorption study of a polycrystalline sample of Ba3ScTe5 that was synthesized by the stoichiometric reaction of elements at 1173 K reveals a direct bandgap of 1.1(2) eV. The temperature-dependent resistivity study of polycrystalline Ba3ScTe5 shows semiconducting behavior corroborating the optical studies while DFT calculations report a pseudo bandgap of 1.3 eV.
Single
crystals and a polycrystalline sample of Ba2Ag2Se2(Se2) were synthesized by standard solid-state
chemistry methods at 1173 and 973 K, respectively. The crystal structure
of this ternary compound was established by single-crystal X-ray diffraction
studies at 100(2) K. The superstructure of this compound is commensurate
and crystallizes in the space group P21/c of a monoclinic system with cell constants of a = 6.1766(2) Å, b = 6.1788(2) Å, c = 21.5784(8) Å, and β = 90.02(1)° (Z = 4). The asymmetric unit of the superstructure comprises
eight atoms occupying general positions: two Ba atoms, two Ag atoms,
and four Se atoms. In this structure, each Ag atom is tetrahedrally
coordinated with four adjacent Se atoms to form distorted AgSe4 units that share edges with the neighboring tetrahedra to
form a two-dimensional [AgSe4/4]− layer.
These layers are separated by Ba2+ and Se2
2– units. The presence of the Se2
2– unit is also supported by an intense band at around 247 cm–1 in the Raman spectrum of Ba2Ag2Se2(Se2). A density functional theory study shows that the
compound is a semiconductor with a calculated band gap of 1.1 eV.
As determined by UV–visible spectroscopy, the direct and indirect
band gaps are 1.23(2) and 1.10(2) eV, respectively, in good agreement
with the theory and consistent with the black color of the compound.
A temperature-dependent resistivity study also confirms the semiconducting
nature of Ba2Ag2Se2(Se2).
Aims of this study was to determine the relationship between diabetes and cognitive impairment is respect of the age of onset and duration of diabetes, other complication of diabetes mellitus and effect of short term glycemic control on cognitive impairment. In the clinical study 50 diabetic patients were examined clinically for evidence of cognitive dysfunction by "Kolkata Cognitive Screening Battery". The scores were compared with the normative data on global cognitive functioning in a population within an urban Indian context. Those having cognitive impairment, follow up was done for six months with adequate anti-diabetic drugs to control their blood sugar strictly (HbA1C <7%). Those who had adequate blood sugar control were again interviewed similarly. The scores were compared with previous values. Results show that cognitive dysfunction was associated with diabetes. Recognition, fluency and immediate memory were most commonly affected. Calculation was least affected. No significant correlation found between cognitive decline with either duration or age of onset of diabetes. The cognitive decline appeared to be reversible as improvement of some mental faculties after strict blood sugar control. In conclusion we have found that cognitive decline was associated with diabetes but not directly related to the duration and age of onset of diabetes. On the other hand, control of diabetes lead to improvement of cognitive function.
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