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Sustainable scalable synthesis of sulfide nanocrystals at low cost with an ionic liquid sulfur precursor

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Increasing the sustainability of nanocrystals is crucial to their application and the protection of the environment. Sulfur precursors for their synthesis are commonly obtained through multiple steps from H2S, only… Click to show full abstract

Increasing the sustainability of nanocrystals is crucial to their application and the protection of the environment. Sulfur precursors for their synthesis are commonly obtained through multiple steps from H2S, only to be converted back to H2S during the synthesis of the nanocrystals. This convoluted process requires energy, reduces yields, increases waste and auxiliaries, and complicates recycling. Using H2S directly could drastically improve sustainability, but is prevented by toxicity and handling. We here show that H2S is stabilized by reaction with oleylamine (the most common and versatile ligand in nanoparticle synthesis) to form an ionic liquid precursor that addresses all major principles of green chemistry: it is made in one exothermic step, it leaves the reaction yielding a safer product and allowing the separate recycling of the precursors, and it produces high quality nanocrystals with high yields (sulfur yield > 70%) and concentrations (90 g L−1) in ambient conditions.Developing sustainable and scalable nanocrystal syntheses is challenging but necessary for future technologies and the environment. Here, the authors show that using an ionic liquid to stabilize a highly reactive precursor can fulfill the major aims of sustainable nanocrystal synthesis, including high yields, energy efficiency, atom economy, and recyclability.

Keywords: ionic liquid; sustainable scalable; precursor; sulfur; synthesis

Journal Title: Nature Communications
Year Published: 2018

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