Nitrogen-doped carbon trapped MnMoO4 microrods toward high performance aqueous zinc-ion battery

“…The symmetric tensile vibration of Mo–O–Mo associated with the B g (+A g ) mode is represented by the higher intensity peaks at 816 and 876 cm −1 . 39,40 Furthermore, the vibration of the Mo–O group in MnMoO 4 associated with the A g mode is indicated by the low-frequency band at 350 cm −1 . 38 Another minor band at 323 cm −1 indicates [MoO 4 ] and is associated with the A g (+B g ) mode.…”

Surfactant-assisted morphology modification of nanostructured MnMoO₄ for high-performance asymmetric supercapacitors

“…The symmetric tensile vibration of Mo–O–Mo associated with the B g (+A g ) mode is represented by the higher intensity peaks at 816 and 876 cm −1 . 39,40 Furthermore, the vibration of the Mo–O group in MnMoO 4 associated with the A g mode is indicated by the low-frequency band at 350 cm −1 . 38 Another minor band at 323 cm −1 indicates [MoO 4 ] and is associated with the A g (+B g ) mode.…”

Surfactant-assisted morphology modification of nanostructured MnMoO₄ for high-performance asymmetric supercapacitors

Constructing the unique structure with Co9S8 embedded in mesoporous carbon hollow sphere for high-performance anode materials of lithium-ion batteries

Morphology engineering of novel MnMoO4@NiMoO4 core–shell nanostructure as an electrode material for asymmetric supercapacitor device