A process for recycling of noble metals



Noble metals are used in various fields of application such as catalysis, jewelry, high technology electronic equipment, equipment for glass industry and many others. As noble metals are rare and hard to extract from the ores or exhausted compounds, many efforts have been undertaken to establish an efficient recycling process. Due to their corrosion resistant properties, noble metals recycling by means of dissolution is limited to the usage of very reactive and harmful chemicals such as Aqua Regia. This leaching process with very high reagent use requires high acid concentration and high temperature and is accompanied by emissions of toxic gases. Therefore, an effective, low priced, safe and environmentally friendly process for noble metal recycling is highly demanded.


We offer a new environmentally friendly and safe technology to recycle noble metals. An efficient recycling is achieved by exposing noble metal containing materials alternating to oxidative and reductive conditions in the presence of a complexing agent. The usage of low concentrated acid solution, in which selected reductive and oxidative gasses are introduced in a tailored sequence, leads to the dissolution of noble metals. To avoid the re-deposition of noble metal, the dissolution can be stabilized by addition of carbon monoxide and a complexing agent such as chlorides, bromides, iodides or cyanides. Oxygen, peroxide, ozone, nitric acid, which are also effective in removing organic and other carbon based contaminates are good oxidation promoted species. Effective reductive species are e.g. hydrogen, carbon monoxide and methanol. The results of platinum dissolution are shown in the Fig. 1.

The results confirm that platinum can be efficiently dissolved and recycled using the proposed technology.


  • Safer, more environmentally friendly and cheaper
  • Low consumption of reagents and low acid concentration
  • Low emission of hazardous gases
  • Low process temperatures and pH
  • Removal of carbon based surface contaminates
  • No oxidative or reductive pre-treatments are required

Patent Information

DE , EP, WO, US and SI patent application filled.