The mesophase of metal alkanoates can be used as a nanoreactor for synthesis and stabilization of semiconductor and metal NPs with small dispersion of their sizes. The LC
mesophase of pure metal alkanoates, as well learn more as LC mesophase of nanocomposites with NPs, can be supercooled that leads to the subsequent formation of an anisotropic glass at the room temperature, in which the layered structure of the smectic A phase is retained [1]. Earlier, Danusertib structural and optical properties of cadmium alkanoate composites with CdS quantum dots have been studied and it was shown that the template-controlled synthesis of semiconductor CdS in metal alkanoate matrix is very promising in creating nanocrystals with small dispersion of their sizes and uniformity on their shapes [2, 3]. They are new perspective materials for many applications including lasers and sensors of near-ultraviolet and blue visible spectral range. It has been found that the thermo-optical nonlinearity of cadmium octanoate composites containing CdSe NPs are characterized by extremely
large value of the nonlinear refractive index, n2, under relatively low-powered CW laser irradiation [4]. As for colloids, progress in synthesis has resulted in methods of formation of CdSe nanostructures with the atomic precision, namely, magic-sized clusters of exact number of constituting atoms [5] and CdSe nanoplatelets with two-dimensional electronic structure [6, 7]. In the present paper, selleck compound we discuss optical absorption and photoluminescence properties of CdSe nanocomposites prepared in cadmium octanoate matrix. Methods The cadmium octanoate (Cd+2(C7H15COO)2 -, the abbreviation CdC8) exists in a form of the polycrystalline powder at room temperature. The smectic A mesophase of the cadmium octanoate occurs in the temperature range 98°C to 180°C. CdSe nanoparticles (NPs) are synthesized
in cadmium octanoate Chloroambucil matrix by the following manner [4]: The polycrystalline powder of CdC8, impregnated with a saturated aqueous-alcoholic solution of the selenourea (starting amount of selenourea is 4 mol%), was held in a furnace (at 100°C, 180°C, or 220°C) in argon atmosphere for 30 min. The size and shape of the CdSe NPs were determined by a certain condition of the synthesis. The synthesized nanocomposites were cooled down to room temperature. As the result, the colored polycrystalline powders of CdC8 with CdSe NPs were obtained. As follows, from the experiments described below, CdSe NPs synthesized in CdC8 at various temperatures (100°C, 180°C, and 220°C) have different sizes. The samples of glassy nanocomposites are prepared by the following method: The polycrystalline powder of the nanocomposite was placed between two flat quartz substrates. The thickness of the sample was set by a polytetrafluoroethylene stripe (10 or 30 μm). Such cell was heated up to the temperatures of the mesophase.