Add to ORKGConversion-type transition-metal phosphide anode materials with high theoretical capacity usually suffer from low-rate capability and severe capacity decay, which are mainly caused by their inferior electronic conductivities and large volumetric variations together with the poor reversibility of discharge product (Li3P), impeding their practical applications. Herein, guided by density functional theory calculations, these obstacles are simultaneously mitigated by confining amorphous FeP nanoparticles into ultrathin 3D interconnected P-doped porous carbon nanosheets (denoted as FeP@CNs) via a facile approach, forming an intriguing 3D flake-CNs-like configuration. As an anode for lithium-ion batteries (LIBs), the resulting FeP@CNs electrode n...
Because of their enhanced kinetic properties, nanocrystallites have received much attention as poten...
2D carbon nanosheets are promising electrode materials for high-efficiency lithium ion batteries (LI...
Suppressing the formation of lithium (Li) dendrites is central to implementing Li-metal anode, which...
Phosphorus-rich iron phosphides (FeP2) have been regarded as excellent anode candidates for lithium ...
Due to high capacity, moderate redox voltage, and relatively low polarization, metal phosphides (MPs...
Due to high capacity, moderate redox voltage, and relatively low polarization, metal phosphides (MPs...
The emerging wearable and foldable electronic devices drive the development of flexible lithium ion ...
The emerging wearable and foldable electronic devices drive the development of flexible lithium ion ...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Slow kinetics and low specific capacity of graphite anode significantly limit its applications in th...
Maintaining structural stability and alleviating the intrinsic poor conductivity of conversion-type ...
Slow kinetics and low specific capacity of graphite anode significantly limit its applications in th...
Red phosphorus (P) have been considered as one of the most promising anode material for both lithium...
Because of their enhanced kinetic properties, nanocrystallites have received much attention as poten...
2D carbon nanosheets are promising electrode materials for high-efficiency lithium ion batteries (LI...
Suppressing the formation of lithium (Li) dendrites is central to implementing Li-metal anode, which...
Phosphorus-rich iron phosphides (FeP2) have been regarded as excellent anode candidates for lithium ...
Due to high capacity, moderate redox voltage, and relatively low polarization, metal phosphides (MPs...
Due to high capacity, moderate redox voltage, and relatively low polarization, metal phosphides (MPs...
The emerging wearable and foldable electronic devices drive the development of flexible lithium ion ...
The emerging wearable and foldable electronic devices drive the development of flexible lithium ion ...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Transition metal phosphides (TMPs) have gained extensive attention as an attractive candidate for an...
Slow kinetics and low specific capacity of graphite anode significantly limit its applications in th...
Maintaining structural stability and alleviating the intrinsic poor conductivity of conversion-type ...
Slow kinetics and low specific capacity of graphite anode significantly limit its applications in th...
Red phosphorus (P) have been considered as one of the most promising anode material for both lithium...
Because of their enhanced kinetic properties, nanocrystallites have received much attention as poten...
2D carbon nanosheets are promising electrode materials for high-efficiency lithium ion batteries (LI...
Suppressing the formation of lithium (Li) dendrites is central to implementing Li-metal anode, which...