Insights
into Electrochemical Sodium Metal Deposition
as Probed with <i>in
Situ</i> <sup>23</sup>Na NMR
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Abstract
Sodium
batteries have seen a resurgence of interest from researchers
in recent years, owing to numerous favorable properties including
cost and abundance. Here we examine the feasibility of studying this
battery chemistry with <i>in situ</i> NMR, focusing on Na
metal anodes. Quantification of the NMR signal indicates that Na metal
deposits with a morphology associated with an extremely high surface
area, the deposits continually accumulating, even in the case of galvanostatic
cycling. Two regimes for the electrochemical cycling of Na metal are
apparent that have implications for the use of Na anodes: at low currents,
the Na deposits are partially removed on reversing the current, while
at high currents, there is essentially no removal of the deposits
in the initial stages. At longer times, high currents show a significantly
greater accumulation of deposits during cycling, again indicating
a much lower efficiency of removal of these structures when the current
is reversed