Constructing Hierarchical Porous MoO₂@Mo₂N@C Composite via a Confined Pyrolysis Synthetic Strategy Towards Lithium‐Ion Battery Anodes

Abstract: Molybdenum dioxide (MoO2) demonstrates a big potential toward lithium‐ion storage due to its high theoretical capacity. The sluggish reaction kinetics and large volume change during cycling process, however, unavoidably lead to inferior electrochemical performance, thus failing to satisfy the requirements of practical applications. Herein, we developed a molybdenum‐based oxyacid salt confined pyrolysis strategy to achieve a novel hierarchical porous MoO2@Mo2N@C composite. A two‐step successive annealing proces… Show more

“…32-0671). 45,46 Additionally, no characteristic diffraction peaks related to the NC can be detected from the XRD patterns of MoO 2 /MoS 2 @NC and MoO 2 @NC, suggesting the amorphous characteristic of the NC. Fig.…”

Facile construction of flower-like MoO₂/MoS₂ heterostructures encapsulated in nitrogen-doped carbon for high-performance sodium-ion storage

“…32-0671). 45,46 Additionally, no characteristic diffraction peaks related to the NC can be detected from the XRD patterns of MoO 2 /MoS 2 @NC and MoO 2 @NC, suggesting the amorphous characteristic of the NC. Fig.…”

Facile construction of flower-like MoO₂/MoS₂ heterostructures encapsulated in nitrogen-doped carbon for high-performance sodium-ion storage

Review: development status and modification strategies of nano-MoS2-based anode materials

Internally and externally modified Mn2SnS4@ZnS@NC nanocassettes for high-performance lithium-ion battery anodes