Ionic Pathways in Li13Si4 investigated by (6)Li and (7)Li solid state NMR experiments.

[1]  Michael Zeilinger,et al.  Revision of the Li13Si4 structure , 2013, Acta crystallographica. Section E, Structure reports online.

[2]  P. Bottke,et al.  Ultraslow Li Exchange Processes in Diamagnetic Li2ZrO3 As Monitored by EXSY NMR , 2013 .

[3]  Martin Winter,et al.  Structural characterization of the lithium silicides Li15Si4, Li13Si4, and Li7Si3 using solid state NMR. , 2012, Physical chemistry chemical physics : PCCP.

[4]  M. Winter,et al.  Structural and dynamic characterization of Li(12)Si(7) and Li(12)Ge(7) using solid state NMR. , 2012, Solid state nuclear magnetic resonance.

[5]  A. J. Morris,et al.  Resolving the different silicon clusters in Li12Si7 by 29Si and (6,7)Li solid-state NMR spectroscopy. , 2011, Angewandte Chemie.

[6]  Martin Wilkening,et al.  Li-NMR-Spektroskopie an kristallinem Li12Si7: zur Aromatizität planarer, Cyclopentadienyl-analoger Si56−-Ringe† , 2011 .

[7]  A. D. Bain,et al.  6Li 1D EXSY NMR Spectroscopy: A New Tool for Studying Lithium Dynamics in Paramagnetic Materials Applied to Monoclinic Li2VPO4F , 2011 .

[8]  P. Heitjans,et al.  Li ion diffusion in the anode material Li12Si7: ultrafast quasi-1D diffusion and two distinct fast 3D jump processes separately revealed by 7Li NMR relaxometry. , 2011, Journal of the American Chemical Society.

[9]  M. Winter,et al.  NMR investigations on the lithiation and delithiation of nanosilicon-based anodes for Li-ion batteries , 2011 .

[10]  J. Tarascon,et al.  Pair distribution function analysis and solid state NMR studies of silicon electrodes for lithium ion batteries: understanding the (de)lithiation mechanisms. , 2011, Journal of the American Chemical Society.

[11]  Rangeet Bhattacharyya,et al.  Real-time NMR investigations of structural changes in silicon electrodes for lithium-ion batteries. , 2009, Journal of the American Chemical Society.

[12]  Jing Xu,et al.  Determination of the diffusion coefficient of lithium ions in nano-Si , 2009 .

[13]  G. Goward,et al.  The Challenge of Paramagnetism in Two-Dimensional 6,7Li Exchange NMR , 2007 .

[14]  H. Meyer,et al.  The mechanism of Li-ion transport in the garnet Li5La3Nb2O12. , 2007, Physical chemistry chemical physics : PCCP.

[15]  H. Günther,et al.  6Li and 7Li MAS NMR Studies on Fast Ionic Conducting Spinel-Type Li2MgCl4, Li2–xCuxMgCl4, Li2–xNaxMgCl4, and Li2ZnCl4 , 2002 .

[16]  G. Hoatson,et al.  Modelling one‐ and two‐dimensional solid‐state NMR spectra , 2002 .

[17]  H. Sugisawa,et al.  207Pb chemical shift thermometer at high temperature for magic angle spinning experiments. , 1999, Solid state nuclear magnetic resonance.

[18]  P. Arvidsson,et al.  Intraaggregate Fluxional Lithium and Carbanion Exchanges in a Chiral Lithium Amide/n-Butyllithium Mixed Tetramer Directly Observed by Multinuclear NMR , 1999 .

[19]  J. Stebbins,et al.  Cation Dynamics and Diffusion in Lithium Orthosilicate: Two-Dimensional Lithium-6 NMR , 1995, Science.

[20]  D. P. Burum,et al.  Temperature Dependence of 207 Pb MAS Spectra of Solid Lead Nitrate. An Accurate, Sensitive Thermometer for Variable-Temperature MAS , 1995 .

[21]  D. Vollath,et al.  Cation exchange rates and mobility in aluminum-doped lithium orthosilicate : high-resolution lithium-6 NMR results , 1995 .

[22]  R. Nesper Structure and chemical bonding in zintl-phases containing lithium , 1990 .

[23]  Reinhard Nesper,et al.  Li21Si5, a Zintl phase as well as a Hume-Rothery phase , 1987 .

[24]  R. Nesper,et al.  Li12Si7, eine Verbindung mit trigonal‐planaren Si4‐Clustern und isometrischen Si5‐Ringen , 1986 .

[25]  Robert A. Huggins,et al.  All‐Solid Lithium Electrodes with Mixed‐Conductor Matrix , 1981 .

[26]  R. Nesper,et al.  Li12Si7, eine Verbindung mit trigonal‐planarem Si4‐Cluster und planaren Si5‐Ringen , 1980 .

[27]  W. Klemm,et al.  Notiz über die Verbindungen zwischen Lithium und Silicium , 1955 .