Electrochemistry Communications (Jun 2022)

Coulometric ion sensing with Li+-selective LiMn2O4 electrodes

  • Yan Lyu,
  • Tingting Han,
  • Lijie Zhong,
  • Yitian Tang,
  • Longbin Xu,
  • Yingming Ma,
  • Yu Bao,
  • Shiyu Gan,
  • Johan Bobacka,
  • Li Niu

Journal volume & issue
Vol. 139
p. 107302

Abstract

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A coulometric signal readout method, which was originally developed for solid-contact ion-selective electrodes, was investigated in this work using LiMn2O4 (LMO) as a combined ion-recognition and signal-transduction layer. The redox process of LMO, which is associated with reversible intercalation/expulsion of Li+ ions, allowed coulometric sensing of Li+ ions in aqueous solutions. On increasing the active area (mass loading) of LMO, the coulometric signal increased for a given change in Li+ ion activity. The excellent redox reversibility of LMO and its relatively low resistance were instrumental in achieving a high signal amplification together with a relatively fast response. Coating the LMO layer with a conventional Li+-selective plasticized PVC membrane was found to dramatically lower the coulometric response. Hence, the application of LMO as a combined Li+-selective electrode material and ion-to-electron transducer was found to be highly compatible with the coulometric signal readout method, especially for detecting small Li+ activity changes at high Li+ concentrations.

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