A comprehensive investigation of multilayer Ti₃C₂Tₓ MXene for supercapacitors in alkaline and acidic media

Авторлар

  • Zh.A. Supiyeva Satbayev University image/svg+xml , Al-Farabi Kazakh National University image/svg+xml
  • A.B. Tugelbayeva Қаныш Сәтбаев атындағы Қазақ ұлттық техникалық университеті image/svg+xml
  • B. Balgabayeva Satbayev University image/svg+xml , Al-Farabi Kazakh National University image/svg+xml
  • F. Sultanov Назарбаев Университеті image/svg+xml , Satbayev University image/svg+xml , National Laboratory Astana, Nazarbayev University , National Laboratory Astana, Nazarbayev University

DOI:

10.15328/cb2026_127

Кілт сөздер:

MXene Ti₃C₂Tₓ, MAX phase Ti₃AlC₂, supercapacitor, aqueous electrolytes, electrochemical energy storage

Аңдатпа

Multilayer Ti3С2Tx MXene was synthesized from Ti3AlC2 MAX phase via hydrofluoric acid etching followed by a gentle shaking-assisted delamination strategy, yielding well-preserved layered structures with expanded interlayer spacing of ~1.2–1.3 nm. Structural and spectroscopic analyses confirmed effective removal of Al layers and the formation of functionalized accordion-like MXene sheets. The electrochemical behavior was systematically investigated in symmetric two-electrode cells using alkaline and acidic electrolytes. The MXene electrode exhibited quasi-rectangular CV curves and symmetric charge–discharge profiles in alkaline media, indicating predominantly capacitive charge storage with good reversibility and rate capability. Significantly higher capacitance and improved retention were obtained in 6 M KOH, reaching ~70–72 F g-1 at low scan rates, which is attributed to enhanced ionic conductivity, reduced charge-transfer resistance, and faster ion diffusion, as further supported by EIS analysis. In contrast, the acidic electrolyte showed distorted CV responses and increased polarization, suggesting slower charge-transfer kinetics and diffusion limitations. These findings highlight the decisive role of electrolyte chemistry in governing charge-storage mechanisms and demonstrate the strong potential of multilayer Ti3С2Tx MXene for supercapacitor applications in concentrated alkaline electrolytes.

Жарияланды

2026-06-30

Ұқсас мақалалар

1-10 тен 21

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