Abstract
The manufacture of semiconductor materials containing gallium and indium requires the separation of these metals owing to their coexistence in the resources of these materials. In this work, solvent extraction of In(III) and Ga(III) from a hydrochloric acid solution by ionic liquids (ILs) was investigated to separate them. The ILs were synthesized by reacting organophosphorus acids (Cyanex 272, PC88A and D2EHPA) and Aliquat 336 (ALi-CY, ALi-PC, and ALi-D2). In(III) was selectively extracted over Ga(III) by the ILs in the range of initial pH from 0.1 to 2.0. The equilibrium pH was always higher than the initial pH because of the coextraction of hydrogen ions. The highest separation factor between In(III) and Ga(III) was 87, which was obtained by ALi-PC at an initial pH of 1.0. Stripping of the loaded ALi-PC with hydrochloric and sulfuric acid led to selective stripping of In(III) over Ga(III). Scrubbing of the loaded ALi-PC with pure In(III) solution was not effective in removing the small amount of Ga(III) present in the loaded ALi-PC. Batch simulation experiments for the three counter-current extraction stages indicated that the complete separation of both metal ions was possible by extracting In(III) using ALi-PC, with remaining Ga(III) in the raffinate.
Highlights
Gallium and indium are raw materials for the production of the semiconductor, solar cell and transparent electrodes of liquid crystal displays (TVs and computer monitors) [1,2,3]
During the extraction with ionic liquids (ILs), solution pH strongly affects the extraction of metal as well as hydrogen ions [14]
Owing to the ionic properties of the ILs, some ions may be dissolved in the aqueous phase, and the solubility of the ILs is reduced by adding NaCl to the aqueous phase [15]
Summary
Gallium and indium are raw materials for the production of the semiconductor, solar cell and transparent electrodes of liquid crystal displays (TVs and computer monitors) [1,2,3]. Gallium and indium are rarely present as a single ore in the earth’s crust, and most of them are produced from by-products of either bauxite or zinc ores [3]. Their weight percentage in the earth’s crust is extremely low, resulting in their small production and high price. Lots of studies have been conducted to recover gallium and indium from secondary resources (see Table 1) [4,5,6].
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