Structural Analysis of Electrolyte Solutions for Rechargeable Mg Batteries by Stereoscopic Means and DFT Calculations

We present a rigorous analysis of unique, wide electrochemical window solutions for rechargeable magnesium batteries, based on aromatic ligands containing organometallic complexes. These solutions are comprised of the transmetalation reaction products of Ph x MgCl2−x and Ph y AlCl3−y in different pr...

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Veröffentlicht in:	Journal of the American Chemical Society 2011-04, Vol.133 (16), p.6270-6278
Hauptverfasser:	Pour, Nir, Gofer, Yossi, Major, Dan T, Aurbach, Doron
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container_title	Journal of the American Chemical Society
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creator	Pour, Nir Gofer, Yossi Major, Dan T Aurbach, Doron
description	We present a rigorous analysis of unique, wide electrochemical window solutions for rechargeable magnesium batteries, based on aromatic ligands containing organometallic complexes. These solutions are comprised of the transmetalation reaction products of Ph x MgCl2−x and Ph y AlCl3−y in different proportions, in THF. In principle, these reactions involve the exchange of ligands between the magnesium and the aluminum based compounds, forming ionic species and neutral molecules, such as Mg2Cl3 +·6THF, MgCl2·4THF, and Ph y AlCl4−y − (y = 0−4). The identification of the equilibrium species in the solutions is carried out by a combination of Raman spectroscopy, multinuclear NMR, and single-crystal XRD analyses. The association of the spectroscopic results with explicit identifiable species is supported by spectral analyses of specially synthesized reference compounds and DFT quantum-mechanical calculations. The correlation between the identified solution equilibrium species and the electrochemical anodic stability window is investigated. This study advances both development of new nonaqueous solution chemistry and possible development of high-energy density rechargeable Mg batteries.
doi_str_mv	10.1021/ja1098512
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title	Structural Analysis of Electrolyte Solutions for Rechargeable Mg Batteries by Stereoscopic Means and DFT Calculations
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