Chemical Reaction Processes in Synthesizing CuInSe2 from the Elements by the Melting Method

Abstract

Chemical reaction processes in synthesizing CuInSe₂ from the elements are investigated. The powder method of X-ray diffraction has been used to identify the reaction products formed in increasing temperature. Copper is selenized first to be Cu₃Se₂. Heated further, the Cu₃Se₂ changes gradually to another copper selenide which is supposed to be Cu₇Se₄. On the other hand, an indium selenide formed in an indium-deficient part inside the reaction tube is confirmed to be In₆Se₇, while in an indium-rich part, it is presumably In₂Se. Above 500°C, the main body of CuInSe₂ begins to be formed from Cu₇Se₄ as the basis. Cu₃Se₂ which has not participated in forming CuInSe₂ begins to diffuse above 500°C, which is one of the main problems for the stoichiometric control of CuInSe₂. The diffused copper selenide also changes to CuInSe₂ by absorbing In₆Se₇ above 600°C.