Cobalt Selenide Hollow Polyhedron Encapsulated in Graphene for High‐Performance Lithium/Sodium Storage

Abstract: Owing to the high specific capacities, high electrochemical activity, and various electronic properties, transition metal selenides are considered as promising anodes for lithium‐ and sodium‐ion storage. However, poor electronic conductivity and huge volume expansion during cycling are still responsible for their restricted electrochemical performance. Herein, CoSe hollow polyhedron anchoring onto graphene (CoSe/G) is synthesized by self‐assembly and subsequent selenization. In CoSe/G composites, the CoSe nano… Show more

“…Calculations show that the I D /I G values for MXene, Co/MXene, and Co@MXene are 0.9326, 0.9497, and 0.9504, respectively, indicating that MXene after compounding has a higher content of amorphous carbon, which contributes to the enhanced electrical conductivity of the laminate and facilitates electron transport and ion diffusion of the electrode. 50,51 Carefully, Co@MXene and Co/MXene samples show characteristic peaks of Co at 523 cm −1 , which is consistent with previous reports, 52 indicating once again that Co nanoparticles are loaded onto MXene. It is of great significance to investigate the individual contents, and the thermo-oxidative degradation behavior was determined by thermogravimetric analysis (TGA), as shown in Figure S13.…”

Electrostatics and Chemistry Combination Divalent Cobalt Ions and Alkali-Treated MXene for High-Performance Lithium-Ion Batteries

“…Calculations show that the I D /I G values for MXene, Co/MXene, and Co@MXene are 0.9326, 0.9497, and 0.9504, respectively, indicating that MXene after compounding has a higher content of amorphous carbon, which contributes to the enhanced electrical conductivity of the laminate and facilitates electron transport and ion diffusion of the electrode. 50,51 Carefully, Co@MXene and Co/MXene samples show characteristic peaks of Co at 523 cm −1 , which is consistent with previous reports, 52 indicating once again that Co nanoparticles are loaded onto MXene. It is of great significance to investigate the individual contents, and the thermo-oxidative degradation behavior was determined by thermogravimetric analysis (TGA), as shown in Figure S13.…”

Electrostatics and Chemistry Combination Divalent Cobalt Ions and Alkali-Treated MXene for High-Performance Lithium-Ion Batteries

“…In recent years, substantial efforts have been made to develop the new anodes with high power/energy density and superior cycling life for LIBs. Metal selenides, such as MoSe 2 , [1][2] CoSe x , [3][4] WSe 2 , [5] SnSe 2 [6][7] and GeSe 2 , [8][9] have received much attention owing to their rich redox chemistry, high specific capacities and better electrical conductivity compared to their oxide counterparts. On the other hand, the weaker bonding of metal-selenium improves the reversibility of the conversion reaction during the charge and discharge process.…”

A Composite of Two Dimensional GeSe₂/Nitrogen‐Doped Reduced Graphene Oxide for Enhanced Capacitive Lithium‐Ion Storage

“…4e shows the discharge-charge proles of the monodisperse FeSe 2 microowers electrode at different rates, further indicating its superior rate capability. Compared to a few other metal selenides (Co-NiSe/C, CoSe, SnSe 2 @C, V 3 Se 4 /NPCNFs, ZnSe/MWCNT, Fe 7 Se 8 @NC), [34][35][36][37][38][39] FeSe 2 shows superior Na storage properties, shown in Fig. 4f, making the monodisperse FeSe 2 microowers promising anode materials for SIBs.…”

Self-assembled monodisperse FeSe₂ microflowers as an advanced anode material for sodium ion batteries