Novel degradable photocatalysts for wastewater treatment

The weakening of the manmade load on the environment has become a global goal of humanity. The accumulation of toxic substances in effl uents can increase the acceleration of pollution of the planet’s watersheds, resulting in biota pollution. To solve this problem, it is necessary to create photocatalysts that cause self-excitation under the ignition of light. Also, important parameters of photocatalysts are simple synthesis and low cost. This article demonstrates a one-step approach to the synthesis of carbon nanostructures (CNS) with photocatalytic activity. For this purpose, the “green chemistry ” method is used – hydrothermal treatment of various polysaccharides (sodium dextran sulfate (SDS), starch, pectin), which opens up the possibility of recycling products. A comprehensive study of the properties of the synthesized CNS has been carried out. To study the optical properties of CNS, absorption and luminescence spectroscopy, and IR spectroscopy, have been used. The CNS obtained have been successfully used in the processes of photocatalytic destruction of a model of the organic dye tartrazine, which is widely used in the fi ber and textile industries. The eff ect of lyophilization on the photocatalytic properties of СNS has been studied, and cytotoxicity has been evaluated

Water-dispersed luminescent quantum dots for miRNA detection

This review targets valuable insight into the application of water dispersed luminescent quantum dots (QDs) for detection of microRNA (miRNA). Recently, considerable efforts have been devoted to obtain QDs for biosensing and bioimaging. Quantum dots with bright stable photoluminescence, synthesized directly in the water phase, offered an unparalleled advantage for the assay development involving small size, high colloidal stability, and presence of groups for bioconjugation. In this review we have delineated the fundamental principles guiding the rational design, synthesis, and application of photoluminescent water-dispersed QDs. Diverse analysis methods for miRNA detection based on the photoluminescence,electrochemiluminescence, Forster resonance energy transfer and electrochemiluminescence energy transfer with different enhancement strategies are discussed