Study on the Synthesis of Mn3O4 Nanooctahedrons and Their Performance for Lithium Ion Batteries

Abstract: Among the transition metal oxides, the Mn3O4 nanostructure possesses high theoretical specific capacity and lower operating voltage. However, the low electrical conductivity of Mn3O4 decreases its specific capacity and restricts its application in the energy conversion and energy storage. In this work, well-shaped, octahedron-like Mn3O4 nanocrystals were prepared by one-step hydrothermal reduction method. Field emission scanning electron microscope, energy dispersive spectrometer, X-ray diffractometer, X-ray p… Show more

“…Unfortunately, the theoretical capacity of the graphitic carbon (372 mA g −1 ) is rather low to satisfy the impending need of high energy densities [ 5 ]. Therefore, immense efforts have been paid on the investigation of the high-performance anodic materials, especially the transition metal oxides, such as NiO [ 6 , 7 ], MnO [ 8 , 9 ], Mn 3 O 4 [ 10 ], Fe 3 O 4 [ 11 , 12 , 13 ], Fe 2 O 3 [ 14 ], SnO 2 [ 15 ], and V 2 O 3 [ 16 ], etc. The metal oxides are outstanding electrode material candidates for lithium storage on account of their excellent electronic conductivities, larger theoretical capacities, as well as favorable diffusion abilities of lithium ions [ 17 ].…”

A Bio-Inspired Nanotubular Na2MoO4/TiO2 Composite as a High-Performance Anodic Material for Lithium-Ion Batteries

“…Unfortunately, the theoretical capacity of the graphitic carbon (372 mA g −1 ) is rather low to satisfy the impending need of high energy densities [ 5 ]. Therefore, immense efforts have been paid on the investigation of the high-performance anodic materials, especially the transition metal oxides, such as NiO [ 6 , 7 ], MnO [ 8 , 9 ], Mn 3 O 4 [ 10 ], Fe 3 O 4 [ 11 , 12 , 13 ], Fe 2 O 3 [ 14 ], SnO 2 [ 15 ], and V 2 O 3 [ 16 ], etc. The metal oxides are outstanding electrode material candidates for lithium storage on account of their excellent electronic conductivities, larger theoretical capacities, as well as favorable diffusion abilities of lithium ions [ 17 ].…”

A Bio-Inspired Nanotubular Na2MoO4/TiO2 Composite as a High-Performance Anodic Material for Lithium-Ion Batteries

“…Hereon, the vibration bands around 595, 445 and 481 cm −1 are attributed to the stretching of the Mn–O bonds in Mn 3 O 4 NPs and MnO x /Mn 3 O 4 –rGO HNCs. 29,30 The presence of the Mn–O stretching vibration on the HNCs suggests the successful integration of the MnO x /Mn 3 O 4 with the rGO. These FT-IR results also advocate that the MnO x /Mn 3 O 4 nanostructured materials are embedded within the rGo nanosheets.…”

“…In addition, the data is used to estimate the wt% of the electroactive component. 29,30 The presence of the Mn-O stretching vibration on the HNCs suggests the successful integration of the MnO x / Mn 3 O 4 with the rGO. These FT-IR results also advocate that the MnO x /Mn 3 O 4 nanostructured materials are embedded within the rGo nanosheets.…”

3D printed interdigitated supercapacitor using reduced graphene oxide-MnO_x/Mn₃O₄ based electrodes

“…The decrease in discharge capacity was mainly from the formation of Li 2 O and a solid electrolyte interphase (SEI) layer, and the electrolyte decomposition during the first lithium intercalation process. 22 Moreover, the high initial discharge capacity is generally ascribed to the pseudocapacitive behaviour of transition metal-based materials. 7 The cycle stabilities of the MnCO 3 electrodes for 1000 cycles were measured at 0.5 A g −1 (Fig.…”

Construction of Cu²⁺-doped MnCO₃ micro-rhombohedrons and micro-olives as promising anode materials for high performance lithium-ion batteries