Chem. Commun., 2016, Accepted Manuscript
DOI: 10.1039/C6CC01106C, Communication
DOI: 10.1039/C6CC01106C, Communication
Gert Brabants, Sara Lieben, Eric Breynaert, Erwin Konrad Reichel, Francis Taulelle, Johan Martens, Bernhard Jakoby, Christine E. A. Kirschhock
Hitherto[space] zeolite[space] formation[space] is[space] not[space] fully[space] understood.[space] Although[space] electrochemical[space] impedance[space] spectroscopy[space] has[space] proven[space] to[space] be[space] a[space] versatile[space]tool[space]for[space]characterizing[space]ionic[space]solutions,[space]it[space]was[space]never[space]used[space] for[space] monitoring[space] zeolite[space] growth.[space] We[space] show[space] here[space] that[space] EIS[space] can[space] quantitatively[space]monitor[space]zeolite[space]formation,[space]especially[space]during[space]crucial[space] early[space]steps[space]where[space]other[space]methods[space]fall[space]short.
The content of this RSS Feed (c) The Royal Society of Chemistry
Hitherto[space] zeolite[space] formation[space] is[space] not[space] fully[space] understood.[space] Although[space] electrochemical[space] impedance[space] spectroscopy[space] has[space] proven[space] to[space] be[space] a[space] versatile[space]tool[space]for[space]characterizing[space]ionic[space]solutions,[space]it[space]was[space]never[space]used[space] for[space] monitoring[space] zeolite[space] growth.[space] We[space] show[space] here[space] that[space] EIS[space] can[space] quantitatively[space]monitor[space]zeolite[space]formation,[space]especially[space]during[space]crucial[space] early[space]steps[space]where[space]other[space]methods[space]fall[space]short.
The content of this RSS Feed (c) The Royal Society of Chemistry
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