Isotope Labeling Reveals Fast Atomic and Molecular Exchange in Mechanochemical Milling Reactions

Using tandem in situ monitoring and isotope-labeled solids, we reveal that mechanochemical ball-milling overcomes inherently slow solid-state diffusion through continuous comminution and growth of milled particles. This process occurs with or without a net chemical reaction and also occurs between s...

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Veröffentlicht in:	Journal of the American Chemical Society 2019-01, Vol.141 (3), p.1212-1216
Hauptverfasser:	Lukin, Stipe, Tireli, Martina, Stolar, Tomislav, Barišić, Dajana, Blanco, Maria Valeria, di Michiel, Marco, Užarević, Krunoslav, Halasz, Ivan
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container_title	Journal of the American Chemical Society
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creator	Lukin, Stipe Tireli, Martina Stolar, Tomislav Barišić, Dajana Blanco, Maria Valeria di Michiel, Marco Užarević, Krunoslav Halasz, Ivan
description	Using tandem in situ monitoring and isotope-labeled solids, we reveal that mechanochemical ball-milling overcomes inherently slow solid-state diffusion through continuous comminution and growth of milled particles. This process occurs with or without a net chemical reaction and also occurs between solids and liquid additives that can be practically used for highly efficient deuterium labeling of solids. The presented findings reveal a fundamental aspect of milling reactions and also delineate a methodology that should be considered in the study of mechanochemical reaction mechanisms.
doi_str_mv	10.1021/jacs.8b12149
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title	Isotope Labeling Reveals Fast Atomic and Molecular Exchange in Mechanochemical Milling Reactions
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