Mulberry‐Like Core‐Shell Structured C@MnO₂ as Electrode Material for Li–Ion Batteries and Pseudo‐Capacitors

Abstract: In present work, mulberry-like core-shell structured C@MnO 2 was synthesized as electrodes for Li-ion batteries and pseudocapacitors. Benefiting from the nanoporous shell and conductive carbon core that improve the ion transference and conductivity, the C@MnO 2 delivers excellent electrochemical performance in terms of a stable lithium storage capacity of 553 mAh g À 1 after 250 cycles under 0.5 A g À 1 and a high capacitance up to 274.44F g À 1 under 1 A g À 1 in 6 M KOH and the capacity retention is 90.2% af… Show more

“…This may have resulted from the MnO 2 (theoretical capacity: 1230 mA h g –1 ) coating layer in the Ni 3 S 2 @MnO 2 nanorod arrays (8.3% of MnO 2 in Ni 3 S 2 @MnO 2 -2, Figure S7). The increased capacity for Ni 3 S 2 @MnO 2 -2 with surface coating can be assigned to the electrochemical reaction between MnO 2 and lithium which can be observed from the platform at ∼0.3 V (Figure d). − The Coulombic efficiency of Ni 3 S 2 @MnO 2 -2 is also increased from 81.6% to 84.2% in comparison with the pure Ni 3 S 2 , demonstrating that the MnO 2 coaxial layer reduces the loss of irreversible capacity significantly. Specific capacities at different discharge rates were calculated based on the discharge curves (Figure e).…”

Oriented-Redox Induced Uniform MnO₂ Coating on Ni₃S₂ Nanorod Arrays as a Stable Anode for Enhanced Performances of Lithium Ion Battery

“…This may have resulted from the MnO 2 (theoretical capacity: 1230 mA h g –1 ) coating layer in the Ni 3 S 2 @MnO 2 nanorod arrays (8.3% of MnO 2 in Ni 3 S 2 @MnO 2 -2, Figure S7). The increased capacity for Ni 3 S 2 @MnO 2 -2 with surface coating can be assigned to the electrochemical reaction between MnO 2 and lithium which can be observed from the platform at ∼0.3 V (Figure d). − The Coulombic efficiency of Ni 3 S 2 @MnO 2 -2 is also increased from 81.6% to 84.2% in comparison with the pure Ni 3 S 2 , demonstrating that the MnO 2 coaxial layer reduces the loss of irreversible capacity significantly. Specific capacities at different discharge rates were calculated based on the discharge curves (Figure e).…”

Oriented-Redox Induced Uniform MnO₂ Coating on Ni₃S₂ Nanorod Arrays as a Stable Anode for Enhanced Performances of Lithium Ion Battery

“…Qi et al recently reported a mulberry-like core-shell structured C@MnO 2 . The material shows high capacitance up to 274.44 F g −1 under 1 A g −1 in 6 M KOH and the capacity retention is 90.2% after 5000 cycles [66].…”

Advanced and Emerging Negative Electrodes for Li-Ion Capacitors: Pragmatism vs. Performance

“…One such approach is the synthesis of nano-scaled MO x /TMO x . [21][22][23] It is well understood that electrochemical features, such as catalysis, charge storage, and conductivity, are largely dependent on the surface area of the material. Nanoparticles (NPs), nanocomposites, and nanomaterials offer greater surface area for competent electrochemical reactions to enhance the energy storage and energy generation capacities of electrodes.…”

Phyto-inspired Cu/Bi oxide-based nanocomposites: synthesis, characterization, and energy relevant investigation