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Design of Organic Cathode Material Based on Quinone and Pyrazine Motifs for Rechargeable Lithium and Zinc Batteries.

Svit MenartOlivera LužaninKlemen PirnatRoman JeralaJože MoškonRobert Dominko
Published in: ACS applied materials & interfaces (2024)
Despite the rapid expansion of the organic cathode materials field, we still face a shortage of materials obtained through simple synthesis that have stable cycling and high energy density. Herein, we report a two-step synthesis of a small organic molecule from commercially available precursors that can be used as a cathode material. Oxidized tetraquinoxalinecatechol (OTQC) was derived from tetraquinoxalinecatechol (TQC) by the introduction of additional quinone redox-active centers into the structure. The modification increased the voltage and capacity of the material. The OTQC delivers a high specific capacity of 327 mAh g -1 with an average voltage of 2.63 V vs Li/Li + in the Li-ion battery. That corresponds to an energy density of 860 Wh kg -1 on the OTQC material level. Furthermore, the material demonstrated excellent cycling stability, having a capacity retention of 82% after 400 cycles. Similarly, the OTQC demonstrates increased average voltage and specific capacity in comparison with TQC in aqueous Zn-organic battery, reaching the specific capacity of 326 mAh g -1 with an average voltage of 0.86 V vs Zn/Zn 2+ . Apart from good electrochemical performance, this work provides an additional in-depth analysis of the redox mechanism and degradation mechanism related to capacity fading.
Keyphrases
  • ion batteries
  • solid state
  • water soluble
  • ionic liquid
  • high intensity
  • solar cells
  • risk assessment
  • high resolution
  • mass spectrometry
  • quantum dots
  • sensitive detection