The advantages of synthesis of complex oxide compounds by solar energy, the possibility of obtaining highly textured nano materials are shown. The development of heliomaterial science, aimed at the synthesis of new materials, is inextricably linked with the use of effective optical energy systems. On the example of obtaining superconducting materials of nominal composition Bi1.7Pb0.3Sr2Ca(n-1)CunOy (n = 3-20), optimization of the parameters of the optical-energy system of the Big Solar Furnace (Parkent) is shown. The ideology of developing heliotechnology for the synthesis of inorganic materials in a solar furnace is presented. The properties of a superconducting material of nominal Bi1.7Pb0.3Sr2Ca(n1)CunOy (n = 3-20) obtained according to the proposed methodology for the synthesis of materials in a solar furnace are presented.
Dilbara, Gulamova; Khayot, Baxronov; Sirojiddin, Bobokhulov; and Elyor, Eshonkulov
"Bases of development of technologies of synthesis of oxide materials in Big solar furnace (Parkent),"
CHEMISTRY AND CHEMICAL ENGINEERING: Vol. 2020:
1, Article 2.
Available at: https://uzjournals.edu.uz/cce/vol2020/iss1/2