In this work, we present a simple two-step synthesis route to develop a cost effective high performance Ti(sub3)C(sub2)eMn(sub3)O(sub4) nanocomposite via a solvothermal process at 150 degrees celsius. The characterization of the composite material was obtained via various techniques. Electrochemical performance study of the material as a potential supercapacitor electrode demonstrated a maximum specific capacity of 128 mAh g(sup1) at a specific current of 1 Ag(sup1) in a 6 M KOH aqueous electrolyte. A capacity retention of 77.7% of the initial value was recorded after over 2000 galvanostatic cycles at 10 Ag(sup1) for the single electrode. More so, the as-prepared nanocomposite sample electrode also showed a relatively stable property with an energy efficiency of 83.5% after cycling tests. Interestingly, an assembled hybrid supercapacitor device with carbonized iron cations (C-FP) and the Ti(sub3)C(sub2)eMn(sub3)O(sub4) composite delivered a specific capacity of 78.9 mAh g(sup1) . The device yielded a high energy of 28.3 Wh kg(sup1) with an equivalent 463.4 W kg(sup1) power densityat 1Ag(sup1) . A good cycling stability performance with an energy efficiency of 90.2% in addition to a 92.6% capacity retention was observed for over 10,000 cycles at specific current of 3 A g(sup1) over a voltage window of 1.5 V
Reference:
Oyedotun, K.O., et al. 2019. Electrochemical performance of two-dimensional Ti3C2-Mn3O4 nanocomposites and carbonized iron cations for hybrid supercapacitor electrodes. Electrochimica Acta, vol. 301, pp.487-499.
Oyedotun, K., Momodu, D., Naguib, M., Mirghni, A., Khaleed, A., Kebede, M. A., & Manyala, N. (2019). Electrochemical performance of two-dimensional Ti3C2-Mn3O4 nanocomposites and carbonized iron cations for hybrid supercapacitor electrodes. http://hdl.handle.net/10204/11095
Oyedotun, KO, DY Momodu, M Naguib, AA Mirghni, AA Khaleed, Mesfin A Kebede, and Ncholu Manyala "Electrochemical performance of two-dimensional Ti3C2-Mn3O4 nanocomposites and carbonized iron cations for hybrid supercapacitor electrodes." (2019) http://hdl.handle.net/10204/11095
Oyedotun K, Momodu D, Naguib M, Mirghni A, Khaleed A, Kebede MA, et al. Electrochemical performance of two-dimensional Ti3C2-Mn3O4 nanocomposites and carbonized iron cations for hybrid supercapacitor electrodes. 2019; http://hdl.handle.net/10204/11095.