Ilyasse Izanzar scite author profile

P2-type NaMO sodiated layered oxides with mixed transition metals are receiving considerable attention for use as cathodes in sodium-ion batteries. A study on solid solution (1 - y)P2-NaCoO-(y)P2-NaMnNiO (y = 0, 1/3, 1/2, 2/3, 1) reveals that changing the composition of the transition metals affects the resulting structure and the stability of pure P2 phases at various temperatures of calcination. For 0 ≤ y ≤ 1.0, the P2-NaCoMnNiO solid-solution compounds deliver good electrochemical performance when cycled between 2.0 and 4.2 V versus Na/Na with improved capacity stability in long-term cycling, especially for electrode materials with lower Co content (y = 1/2 and 2/3), despite lower discharge capacities being observed. The (1/2)P2-NaCoO-(1/2)P2-NaMnNiO composition delivers a discharge capacity of 101.04 mAh g with a capacity loss of only 3% after 100 cycles and a Coulombic efficiency exceeding 99.2%. Cycling this material to a higher cutoff voltage of 4.5 V versus Na/Na increases the specific discharge capacity to ≈140 mAh g due to the appearance of a well-defined high-voltage plateau, but after only 20 cycles, capacity retention declines to 88% and Coulombic efficiency drops to around 97%. In situ X-ray absorption near-edge structure measurements conducted on composition NaCoMnNiO (y = 1/2) in the two potential windows studied help elucidate the operating potential of each transition metal redox couple. It also reveals that at the high-voltage plateau, all of the transition metals are stable, raising the suspicion of possible contribution of oxygen ions in the high-voltage plateau.

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A flexible self-poled piezocomposite nanogenerator based on H₂(Zr_0.1Ti_0.9)₃O₇ nanowires and polylactic acid biopolymer

Hanani

Izanzar

Merselmiz

et al. 2022

Sustainable Energy Fuels

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Hard Carbons Prepared by Pyrolyzing Date's Pits for Sodium Ion Batteries

Izanzar

Kiso

Dahbi

et al. 2017

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Ilyasse Izanzar

Hard carbons issued from date palm as efficient anode materials for sodium-ion batteries

Lead-free nanocomposite piezoelectric nanogenerator film for biomechanical energy harvesting

On the P2-Na_xCo_1–y(Mn_2/3Ni_1/3)yO₂ Cathode Materials for Sodium-Ion Batteries: Synthesis, Electrochemical Performance, and Redox Processes Occurring during the Electrochemical Cycling

A flexible self-poled piezocomposite nanogenerator based on H₂(Zr_0.1Ti_0.9)₃O₇ nanowires and polylactic acid biopolymer

Hard Carbons Prepared by Pyrolyzing Date's Pits for Sodium Ion Batteries

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Ilyasse Izanzar

Hard carbons issued from date palm as efficient anode materials for sodium-ion batteries

Lead-free nanocomposite piezoelectric nanogenerator film for biomechanical energy harvesting

On the P2-NaxCo1–y(Mn2/3Ni1/3)yO2 Cathode Materials for Sodium-Ion Batteries: Synthesis, Electrochemical Performance, and Redox Processes Occurring during the Electrochemical Cycling

A flexible self-poled piezocomposite nanogenerator based on H2(Zr0.1Ti0.9)3O7 nanowires and polylactic acid biopolymer

Hard Carbons Prepared by Pyrolyzing Date's Pits for Sodium Ion Batteries

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Product

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On the P2-Na_xCo_1–y(Mn_2/3Ni_1/3)yO₂ Cathode Materials for Sodium-Ion Batteries: Synthesis, Electrochemical Performance, and Redox Processes Occurring during the Electrochemical Cycling

A flexible self-poled piezocomposite nanogenerator based on H₂(Zr_0.1Ti_0.9)₃O₇ nanowires and polylactic acid biopolymer