The present study with the detailed 1H-6Li cross polarization NMR analysis confirms the formation of a ternary compound, (Mg1-xLi2x)B2, during ball milling of LiH + ½ MgB2 at room temperature. The 6Li sites in (Mg1-xLi2x)B2 exhibit spinning sidebands (SSBs), whereas the 6Li sites in LiH do not. The SSBs and the very short spin-lattice relaxation time manifested by the 6Li sites in (Mg1-xLi2x)B2 indicate that the Li ions in (Mg1-xLi2x)B2 are located between the layered boron structures and close to Mg ions. The formation of (Mg1-xLi2x)B2 explains the previous observation that the LiH + ½ MgB2 mixture ball milled effectively has a greatly enhanced hydriding kinetics at temperatures below the melting point of LiBH4.
Revised: April 7, 2011 |
Published: June 1, 2010
Citation
Hu J.Z., J. Kwak, Z. Yang, X. Wan, and L.D. Shaw. 2010.Detailed Investigation of Ion Exchange in Ball Milled LiH+MgB2 System using Ultra-High Field NMR Spectroscopy.Journal of Power Sources 195, no. 11:3645-3648.PNNL-SA-70035.doi:10.1016/j.jpowsour.2009.12.033