Abstract
In this work, the feasibility of extracting of metallic indium from In2O3 and ITO through the direct
electrochemical reduction at 450°C in molten salt LiCl-KCl was studied. Cyclic voltammetry was carried
out to study the behaviour of indium oxide by the liquid metal indium used as the working electrode.
The reduction peak was observed in the cathodic scan for In2O3. The direct de-oxidation of indium oxide
and ITO were investigated by using liquid tin cathode. Constant voltage electrolysis was performed at
1.7 V for 2h. The reduction reaction occurred at the interface of the oxide pellets and the cathode. Sn-In
alloy was detected after electrolysis. Liquid zinc cathode was also used as cathode taking into account
the low melting points of indium and tin. Potentiostatic electrolysis was conducted for the ITO with a
liquid zinc cathode. The result showed that indium could be produced at different liquid cathodes.
electrochemical reduction at 450°C in molten salt LiCl-KCl was studied. Cyclic voltammetry was carried
out to study the behaviour of indium oxide by the liquid metal indium used as the working electrode.
The reduction peak was observed in the cathodic scan for In2O3. The direct de-oxidation of indium oxide
and ITO were investigated by using liquid tin cathode. Constant voltage electrolysis was performed at
1.7 V for 2h. The reduction reaction occurred at the interface of the oxide pellets and the cathode. Sn-In
alloy was detected after electrolysis. Liquid zinc cathode was also used as cathode taking into account
the low melting points of indium and tin. Potentiostatic electrolysis was conducted for the ITO with a
liquid zinc cathode. The result showed that indium could be produced at different liquid cathodes.