Electrostatic Self‐Assembly of CoSe₂ HBs/Ti₃C₂T_x Composites for Long‐cycle‐life Sodium Ion Batteries

Abstract: Sodium ion batteries (SIBs) are considered as one of the most promising energy storage devices owing to lower cost and higher energy/power density. However, limited cycling life and poor rate capability of selectable materials restrict their worldwide application. To regulate the material's structure at the nanoscale, reducing volume expansion and increasing the intrinsic conductivity are two positive strategies to deal with these issues. Herein, CoSe 2 Hollow Boxes/Ti 3 C 2 T x flakes composites (CoSe 2 HBs/T… Show more

“…3f). [40][41][42][43][44][45] The ZnSe/ MoSe 2 @NC also exhibits a good ultra-cycle life at 5 A g −1 (Fig. 3g).…”

Structural engineering of bimetallic selenides for high-energy density sodium-ion half/full batteries

“…3f). [40][41][42][43][44][45] The ZnSe/ MoSe 2 @NC also exhibits a good ultra-cycle life at 5 A g −1 (Fig. 3g).…”

Structural engineering of bimetallic selenides for high-energy density sodium-ion half/full batteries

“…[3][4][5] Therefore, various approaches have been proposed for improving the energy density of supercapacitors. As a typical pseudocapacitor electrode material, NiCo 2 Se 4 has received extensive attention in the field of supercapacitors due to its valence state diversity, high electrochemical activity and inherent metallic properties [6][7][8] However, its low conductivity and pulverization problems caused by the charging/discharging process lead to slow reaction kinetics, which is not conducive to the transport of electrons and ions. 9 Therefore, it is of great significance to develop excellent reaction kinetic electrode materials.…”

Se vacancy-driven nickel cobalt selenide electrode enhancing reaction kinetics for boosting supercapacitive performance

Metal–organic framework-derived CoSe2@N-doped carbon nanocubes for high-performance lithium-ion capacitors