Cotton-Like Three-Dimensional SbOCl Structures: Synthesis and Ammonium Hydroxide Sensing.

Nanostructured materials have emerged as valuable tools for the advancement of novel electrocatalysts. Among them, three-dimensional metal oxides have gained significant attention due to their excellent conductivity, cost-effectiveness, and unique design. This study focuses on the synthesis of cotton-like three-dimensional antimony oxychloride (SbOCl) structures through a straightforward precipitation method.

Green Synthesis and Applications of ZnO and TiO Nanostructures.

Over the last two decades, oxide nanostructures have been continuously evaluated and used in many technological applications. The advancement of the controlled synthesis approach to design desired morphology is a fundamental key to the discipline of material science and nanotechnology. These nanostructures can be prepared via different physical and chemical methods; however, a green and ecofriendly synthesis approach is a promising way to produce these nanostructures with desired properties with less risk of hazardous chemicals.

Knockout of the CCCH zinc finger protein TcZC3H31 blocks Trypanosoma cruzi differentiation into the infective metacyclic form.

In the protozoan parasite Trypanosoma cruzi - the causative agent of Chagas disease - gene expression control is mainly post-transcriptional, where RNA-binding proteins (RBPs) play a central role, by controlling mRNA stability, distribution and translation. A large variety of RBPs are encoded in the T. cruzi genome, including the CCCH-type zinc finger (CCCH ZnF) protein family, which is characterized by the presence of the C-X-C-X-C-X-H (CCCH) motif.

Structural and photoluminescence properties of Eu(3+) doped α-Ag2WO4 synthesized by the green coprecipitation methodology.

Europium doped silver tungstates α-Ag2-3xEuxWO4 (x = 0, 0.0025, 0.005, 0.