1 In situ NMR Observation of the Formation of Metallic Lithium Microstructures in Lithium Batteries

Lithium metal has the highest volumetric and gravimetric energy density of all negative electrode materials, when used as an electrode material in a lithium rechargeable battery. However, the formation of lithium dendrites and/or “moss ” on the metal electrode surface can lead to short circuits, following several electrochemical charge-discharge cycles, particularly at high rates, rendering this class of batteries potentially unsafe and unusable due to the risk of fire and explosion. Many recent investigations have focused on the development of methods to prevent moss/dendrite formation. In parallel, it is important to quantify Li moss formation, to identify the conditions under which it forms. Although optical and electron microscopy can visually monitor the morphology of lithium electrode surface and hence the moss formation, such methods are not well suited for quantitative studies. Here we report the use of in-situ NMR spectroscopy, to provide time-resolved, quantitative information about the nature of the metallic lithium deposited on lithium metal electrodes. Lithium-ion batteries (LIBs), due to their very high gravimetric and volumetric energy densities, are widely used as electrical-energy storage devices. Owing to their increasing powe