Electrochemistry Communications (Mar 2022)

Macroscopically uniform and flat lithium thin film formed by electrodeposition using multicomponent additives

  • Kazuhiro Fukami,
  • Akihiro Sakurai,
  • Takamitsu Tsujimoto,
  • Masaki Yamagami,
  • Atsushi Kitada,
  • Kota Morimoto,
  • Kiho Nishioka,
  • Shuji Nakanishi,
  • Yusuke Yoshikane,
  • Toshimitsu Nagao,
  • Jun-ichi Katayama,
  • Kuniaki Murase

Journal volume & issue
Vol. 136
p. 107238

Abstract

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It is well-known that the electrodeposition of lithium usually results in the formation of dendrites on the electrode surface. This limits the utilization of metallic lithium as a material for, for example, the negative electrodes of rechargeable batteries. In aqueous solutions, similar dendritic growth of metals is often observed during electrodeposition; however, utilization of multicomponent additives has overcome this shortcoming. Here, we report that the simultaneous utilization of four different additives greatly suppresses the formation of lithium dendrites during electrodeposition in a tetraglyme-based solution. The roles of the additives are discussed, based on the results of electrochemical quartz crystal microbalance measurements and X-ray photoelectron spectroscopy.

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