Iodine‐Catalysed Dissolution of Elemental Gold in Ethanol

Zupanc, A.; Heliövaara, Eeva; Moslova, Karina; Eronen, Aleksi; Kemell, Marianna; Podlipnik, Črtomir; Jereb, Marjan; Repo, Timo

doi:10.1002/ange.202117587

Cited by 7 publications

(1 citation statement)

References 60 publications

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“…There have been numerous recent attempts to address these problems, e.g., by selective precipitation, 9, 10 chelation of aurate species using macrocyclic hosts, [11][12][13] 3D-printed scavenger filters, 14 direct one-pot conversion of elemental gold to organo-soluble complexes. [15][16][17][18] We have previously shown that mechanochemistry, which encompasses the use of mechanical forces like grinding and shearing to initiate, sustain, and conduct chemical transformations, 19 is a simple, rapid, and environmentally-friendly method to convert noble metals such as Pd, Au, and Pt into water-soluble salts. 20 Specifically, ball milling of these raw precious metals, either alone or in a mixture, with mild oxidants such as potassium peroxymonosulfate (2KHSO5•KHSO4•K2SO4, Oxone ® ), potassium persulfate (K2S2O8), or calcium hypochlorite (Ca(ClO)2) in the presence of simple halide salts results in tetrahaloaurate(III) [AuX4]¯, tetrahalopalladate(II) [PdX4] 2 ¯ or hexahaloplatinate(IV) [PtX6] 4 ¯ derivatives (X = Cl, Br) with a preference for gold oxidization.…”

Section: Introductionmentioning

confidence: 99%

Quantitative, room‐temperature, solvent-free mechanochemical oxidation of elemental gold into organosoluble gold salts

Auvray

Lennox

et al. 2022

Preprint

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Gold is highly valued for its wide-ranging commercial and technological use and is currently almost exclusively processed via aggressive reaction conditions that produce water soluble salts. Oxidative mechanochemistry has previously been shown as a rapid, mild, and room-temperature alternative for chemically activating and transforming gold into water soluble species in the presence of potassium and ammonium halides. Demonstrated here is the extension of this strategy in the presence of tetraalkylammonium halides to directly and efficiently produce salts soluble in pure organic solvents and aqueous alcoholic media. This method affords gold salts that are rapidly and easily purified from byproducts using benign and easily recycled solvents and can be readily used for subsequent materials synthesis such as Au(I) salts and gold nanoparticles.

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Section: Introductionmentioning

confidence: 99%

Quantitative, room‐temperature, solvent-free mechanochemical oxidation of elemental gold into organosoluble gold salts

Auvray

Lennox

et al. 2022

Preprint

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Sustainable and Selective Modern Methods of Noble Metal Recycling

et al. 2022

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Noble metals exhibit broad arrange of applications in industry and several aspects of human life which are becoming more and more prevalent in modern times. Due to their limited sources and constantly and consistently expanding demand, recycling of secondary and waste materials must accompany the traditional mineral extractions. This Minireview covers the most recent solvometallurgical developments in regeneration of Pd, Pt, Rh, Ru, Ir, Os, Ag and Au with emphasis on sustainability and selectivity. Processing—by selective oxidative dissolution, reductive precipitation, solvent extraction, co‐precipitation, membrane transfer and trapping to solid media—of eligible multi‐metal substrates for recycling from waste printed circuit boards to end‐of‐life automotive catalysts are discussed. Outlook for possible future direction for noble metal recycling is proposed with emphasis on sustainable approaches.

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Sequential Selective Dissolution of Coinage Metals in Recyclable Ionic Media

Zupanc,

Install,

Weckman

et al. 2024

Angewandte Chemie

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Coinage metals Cu, Ag and Au are essential for modern electronics and their recycling from waste materials is becoming increasingly important to guarantee the security of their supply. Designing new sustainable and selective procedures that would substitute currently used processes is crucial. Here, we describe an unprecedented approach for the sequential dissolution of single metals from Cu, Ag and Au mixtures using biomass‐derived ionic solvents and green oxidants. First, Cu can be selectively dissolved in the presence of Ag and Au with choline chloride/urea/H2O2 mixture, followed by the dissolution of Ag in lactic acid/H2O2. Finally, the metallic Au, which is not soluble in either solution above, is dissolved in choline chloride/urea/Oxone. Subsequently, the metals were simply and quantitatively recovered from dissolutions, and the solvents recycled and reused. The applicability of developed approach was demonstrated by recovering metals from electronic waste substrates such as printed circuit boards, gold fingers and solar panels. The dissolution reactions and selectivity were explored with different analytical techniques and DFT calculations. We anticipate our approach will pave a new way for contemporary and sustainable recycling of multi‐metal waste substrates.

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Iodine‐Catalysed Dissolution of Elemental Gold in Ethanol

Cited by 7 publications

References 60 publications

Quantitative, room‐temperature, solvent-free mechanochemical oxidation of elemental gold into organosoluble gold salts

Quantitative, room‐temperature, solvent-free mechanochemical oxidation of elemental gold into organosoluble gold salts

Sustainable and Selective Modern Methods of Noble Metal Recycling

Sequential Selective Dissolution of Coinage Metals in Recyclable Ionic Media

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