• Title/Summary/Keyword: Indium Scrap

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Recovery of Indium from Scrap

  • Han, Kenneth N.
    • Resources Recycling
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    • v.10 no.5
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    • pp.3-7
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    • 2001
  • Indium frequently associated with the semiconductor industry is becoming an important metal element widely used in industry. In this paper, its properties especially in relation to its recovery from scrap are reviewed and discussed. Also presented in this paper is how best indium can be recovered by the hydrometallurgical means.

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Preparation of High-purity Indium Oxalate Salt from Indium Scrap by Organic Acids (유기산에 의한 인듐스크랩에서 고순도 인듐옥살산염의 제조)

  • Koo, Su-Jin;Ju, Chang-Sik
    • Korean Chemical Engineering Research
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    • v.51 no.6
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    • pp.661-665
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    • 2013
  • Effect of organic acid on the preparation of indium-oxalate salt from indium scraps generated from ITO glass manufacturing process was studied. Effects of parameters, such as type and concentration of organic acids, pH of reactant, temperature, reaction time on indium-oxalate salt preparation were examined. The impurity removal efficiency was similar for both oxalic acid and citric acid, but citric acid did not make organic acid salt with indium. The optimum conditions were 1.5 M oxalic acid, pH 7, $80^{\circ}C$, and 6 hours. On the other hand, the recoveries increased with pH, but the purity decreased. The indium-oxalate salt purity prepared by two cycles was 99.995% (4N5). The indium-oxalate salt could be converted to indium oxide and indium metal by substitution reaction and calcination.

ELECTROREFINING OF INDIUM METAL FROM IMPURE In-Sn ALLOY IN FLUORIDE MOLTEN SALT

  • HYUN-GYU LEE;SANG-HOON CHOI;JAE-JIN SIM;JAE-HONG LIM;SOONG-KEUN HYUN;JONG-HYEON LEE;KYOUNG-TAE PARK
    • Archives of Metallurgy and Materials
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    • v.64 no.3
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    • pp.899-905
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    • 2019
  • In this study, molten salt electrorefining was used to recover indium metal from In-Sn crude metal sourced from indium tin oxide (ITO) scrap. The electrolyte used was a mixture of eutectic LiF-KF salt and InF3 initiator, melted and operated at 700℃. Voltammetric analysis was performed to optimize InF3 content in the electrolyte, and cyclic voltammetry (CV) was used to determine the redox potentials of In metal and the electrolyte. The optimum initiator concentration was 7 wt% of InF3, at which the diffusion coefficients were saturated. The reduction potential was controlled by applying constant current densities of 5, 10, and 15 mA/cm2 using chronopotentiometry (CP) techniques. In metal from the In-Sn crude melt was deposited on the cathode surface and was collected in an alumina crucible.

Method for Making High Purity Gallium by Electrowinning (전해채취에 의한 Gallium의 정제기술)

  • Choi, Young-Jong;Hwang, Su-Hyun;Jeon, Deok-Il;Han, Kyu-Sung
    • Resources Recycling
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    • v.23 no.6
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    • pp.63-67
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    • 2014
  • Gallium is an important material and is used by industry of oxide semi-conductor and LED chip. However, the most of the gallium-containing waste resources became outflow abroad and the most of which is imported from oversea by following technical problem and low circulation rate. In this research, the recovery of high purity Gallium metal from Gallium scrap, which containing about 30% of Gallium, was investigated by using hydro-metallurgical process. As pretreatment, the Gallium scrap was pulverized and leached by strong acid such as hydro chloric acid. At the leached solution, Indium was separated as an Indium sponge by substitution reaction and then Gallium and Zinc hydroxide separated and filtrated using strong alkaline solution such as sodium hydroxide by precipitation method. Also, Gallium metal and Zinc metal was recovered by electrowinning method. To make an electrolytic solution, Gallium and Zinc hydroxide was leached by strong alkaline solution. Finally, High purity Gallium metal was recovered by vacuum refining process to remove the Zinc impurity.

The Comparison to Physical Properties of Large Size Indium Zinc Oxide Transparent Conductive Layer (대면적 상온 Indium Zinc Oxide 투명 도전막의 물성 특성 비교)

  • Joung, Dae-Young;Lee, Young-Joon;Park, Joon-Yong;Yi, Jun-Sin
    • Journal of the Korean institute of surface engineering
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    • v.41 no.1
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    • pp.6-11
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    • 2008
  • An Indium Zinc Oxide(IZO) transparent conductive layer was deposited on a large size glass substrate by using magnetron dc sputtering method with varying a deposition temperature. As the deposition temperature decreased to a room temperature, the sheet resistance of IZO film increased. But this deposition temperature range is included in an applicable to a device. From a standpoint of the sheet resistance, the differences of the sheet resistance were not great and the uniformity of the layer was uniformed around 10%. Crystallization particles were shown on the surface of the layer as deposition temperature increased, but these particles were not shown on the surface of the layer as deposition temperature decreased to the room temperature. It didn't make a scrap of difference in a transmittance of varying deposition temperature. Therefore, it is concluded that IZO thin film manufactured by the room temperature deposition condition can be used as a large size transparent conductive layer of a liquid crystal display device.