Identifying reactive organo-selenium precursors in the synthesis of CdSe nanoplatelets

In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify bis(acyl) selenides as key reactive intermediates. Based on our findings, we prepare a series of bis(acyl) selenides that provide useful prec...

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Published in	Chemical communications (Cambridge, England) Vol. 54; no. 83; pp. 11789 - 11792
Main Authors	Riedinger, Andreas, Mule, Aniket S., Knüsel, Philippe N., Ott, Florian D., Rossinelli, Aurelio A., Norris, David J.
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 16.10.2018
Subjects	Acylation Cadmium Compounds - chemical synthesis Cadmium Compounds - chemistry chemical reduction Chemistry Techniques, Synthetic - methods Liquid phases nanomaterials Nanoparticles - chemistry Nanoparticles - ultrastructure Nanotechnology - methods organic compounds Organoselenium Compounds - chemical synthesis Organoselenium Compounds - chemistry Precursors Selenides Selenium Selenium Compounds - chemical synthesis Selenium Compounds - chemistry Synthesis
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ISSN	1359-7345 1364-548X 1364-548X
DOI	10.1039/C8CC06326E

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Abstract	In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify bis(acyl) selenides as key reactive intermediates. Based on our findings, we prepare a series of bis(acyl) selenides that provide useful precursors with tailored reactivity for liquid-phase syntheses of nanoplatelets.
AbstractList	In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify bis(acyl) selenides as key reactive intermediates. Based on our findings, we prepare a series of bis(acyl) selenides that provide useful precursors with tailored reactivity for liquid-phase syntheses of nanoplatelets. In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify bis(acyl) selenides as key reactive intermediates. Based on our findings, we prepare a series of bis(acyl) selenides that provide useful precursors with tailored reactivity for liquid-phase syntheses of nanoplatelets.In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify bis(acyl) selenides as key reactive intermediates. Based on our findings, we prepare a series of bis(acyl) selenides that provide useful precursors with tailored reactivity for liquid-phase syntheses of nanoplatelets.
Author	Mule, Aniket S. Riedinger, Andreas Knüsel, Philippe N. Norris, David J. Ott, Florian D. Rossinelli, Aurelio A.
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Snippet	In the synthesis of CdSe nanoplatelets, the selenium-to-selenide reduction pathway is unknown. We study solvent-free growth of CdSe nanoplatelets and identify...
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SubjectTerms	Acylation Cadmium Compounds - chemical synthesis Cadmium Compounds - chemistry chemical reduction Chemistry Techniques, Synthetic - methods Liquid phases nanomaterials Nanoparticles - chemistry Nanoparticles - ultrastructure Nanotechnology - methods organic compounds Organoselenium Compounds - chemical synthesis Organoselenium Compounds - chemistry Precursors Selenides Selenium Selenium Compounds - chemical synthesis Selenium Compounds - chemistry Synthesis
Title	Identifying reactive organo-selenium precursors in the synthesis of CdSe nanoplatelets
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