Add to ORKGA carbon-coated cobalt (Co@C) composite was synthesized by a one-step method using ionic liquid as carbon source and reducing agent. The Co@C composite exhibited a core-shell structure, in which the cobalt nanoparticles uniformly embedded in the carbon matrix. When used as the anode material for lithium ion batteries, the cobalt nanoparticles enhanced the kinetics of Li+ and electronic transport during the charge/discharge process. The Co@C composite material delivered a reversible capacity of 657.3 mAh g-1 after 60 cycles at a current density of 0.1C and exhibits improved rate performance when compared with pure carbon
Co3O4?C composite powder has been synthesized via spray pyrolysis of cobalt nitrate-sugar solution a...
CoO composite materials had attracted wide attention due to their potential application in lithium i...
Ultrafine CoP nanoparticles embedded in nitrogen-doped carbon matrix derived from zeolitic imidazola...
With the increasing demand for sustainable and green energy, electric energy storage technologies ha...
A novel C/Co composite with Co nanoparticles embedded in carbon matrix is synthesized firstly by pyr...
A novel composite with embedded cobalt nanoparticles in nitrogen doped carbon (Co@NDC) is synthesize...
Co@Co3O4@Nitrogen doped carbon (Co@Co3O4@NDC) composite is synthesized by high temperature carboniza...
Sustainable, renewable and environmental friendly anode materials are key factors to energy storage ...
As the necessity of eco-friendly energy storage devices grows, lithium-ion batteries (LIBs) have eme...
As high theoretical capacity and excellent electrical conductivity, Co9S8 as a promising electrode m...
During the past decade, tremendous attention has been given to the development of new electrode mate...
The present study reports a straightforward template-free route for the synthesis of core-shell Co@C...
Enhancing anode performance in lithium-ion battery is one of the key directions to enable its effici...
Due to the depletion of fossil fuels and the increasing demand in the field of electronics, highly e...
We propose an effective strategy to engineer a unique kind of porous carbon cuboid with tightly anch...
Co3O4?C composite powder has been synthesized via spray pyrolysis of cobalt nitrate-sugar solution a...
CoO composite materials had attracted wide attention due to their potential application in lithium i...
Ultrafine CoP nanoparticles embedded in nitrogen-doped carbon matrix derived from zeolitic imidazola...
With the increasing demand for sustainable and green energy, electric energy storage technologies ha...
A novel C/Co composite with Co nanoparticles embedded in carbon matrix is synthesized firstly by pyr...
A novel composite with embedded cobalt nanoparticles in nitrogen doped carbon (Co@NDC) is synthesize...
Co@Co3O4@Nitrogen doped carbon (Co@Co3O4@NDC) composite is synthesized by high temperature carboniza...
Sustainable, renewable and environmental friendly anode materials are key factors to energy storage ...
As the necessity of eco-friendly energy storage devices grows, lithium-ion batteries (LIBs) have eme...
As high theoretical capacity and excellent electrical conductivity, Co9S8 as a promising electrode m...
During the past decade, tremendous attention has been given to the development of new electrode mate...
The present study reports a straightforward template-free route for the synthesis of core-shell Co@C...
Enhancing anode performance in lithium-ion battery is one of the key directions to enable its effici...
Due to the depletion of fossil fuels and the increasing demand in the field of electronics, highly e...
We propose an effective strategy to engineer a unique kind of porous carbon cuboid with tightly anch...
Co3O4?C composite powder has been synthesized via spray pyrolysis of cobalt nitrate-sugar solution a...
CoO composite materials had attracted wide attention due to their potential application in lithium i...
Ultrafine CoP nanoparticles embedded in nitrogen-doped carbon matrix derived from zeolitic imidazola...