Two kinds of hard carbon (HC) were investigated as negative electrodes for sodium secondary batteries using Na[FSA]–[C₃C₁pyrr][FSA] as an ionic liquid electrolyte at 363 K. The structural properties of HCs were studied by X-ray diffraction (XRD), Raman spectroscopy, small-angle X-ray scattering (SAXS), and field-emission scanning electron microscopy (FE-SEM). The interlayer distance between graphene sheets and the pore size were different for these HCs. Potential slope and plateau regions were observed in charge–discharge curves, which is typical for HC negative electrodes. More detailed examinations revealed that the HC with a larger interlayer distance showed higher capacity in the slope region, while that with a larger pore size exhibite...
Na-ion batteries have been proposed as candidates for replacing Li-ion batteries. In this paper we e...
K-ion batteries utilizing ionic liquid (IL) electrolytes are promising candidates for next-generatio...
Current efforts to improve sodium-ion batteries are heavily focused on developing high performance c...
Hard carbon (HC) is receiving widespread attention as a negative electrode material for sodium secon...
International audienceCellulose, the most abundant organic polymer on Earth, is a sustainable source...
Hard carbon (HC) is the negative electrode (anode) material of choice for sodium-ion batteries (SIBs...
We present here a comprehensive description and discussion of the possible use of hard carbons as an...
Sodium-ion batteries are one of the ideal devices for large-scale energy storage systems, and hard c...
The electrochemical performance of glucose-derived hard carbon (GDHC) anode has been evaluated using...
This work focuses on the research of hard carbon as a promising negative electrode material for sodi...
In recent years, sodium-ion batteries (NIBs) have been greatly explored as an alternative technology...
We report on a detailed structural versus electrochemical property investigation of the corncob-deri...
We report on a detailed structural versus electrochemical property investigation of the corncob-deri...
Hard carbons are some of the most promising negative electrode materials for sodium-ion batteries (N...
Sodium ion batteries (SIBs) have attracted lots of attention over last few years due to the abundanc...
Na-ion batteries have been proposed as candidates for replacing Li-ion batteries. In this paper we e...
K-ion batteries utilizing ionic liquid (IL) electrolytes are promising candidates for next-generatio...
Current efforts to improve sodium-ion batteries are heavily focused on developing high performance c...
Hard carbon (HC) is receiving widespread attention as a negative electrode material for sodium secon...
International audienceCellulose, the most abundant organic polymer on Earth, is a sustainable source...
Hard carbon (HC) is the negative electrode (anode) material of choice for sodium-ion batteries (SIBs...
We present here a comprehensive description and discussion of the possible use of hard carbons as an...
Sodium-ion batteries are one of the ideal devices for large-scale energy storage systems, and hard c...
The electrochemical performance of glucose-derived hard carbon (GDHC) anode has been evaluated using...
This work focuses on the research of hard carbon as a promising negative electrode material for sodi...
In recent years, sodium-ion batteries (NIBs) have been greatly explored as an alternative technology...
We report on a detailed structural versus electrochemical property investigation of the corncob-deri...
We report on a detailed structural versus electrochemical property investigation of the corncob-deri...
Hard carbons are some of the most promising negative electrode materials for sodium-ion batteries (N...
Sodium ion batteries (SIBs) have attracted lots of attention over last few years due to the abundanc...
Na-ion batteries have been proposed as candidates for replacing Li-ion batteries. In this paper we e...
K-ion batteries utilizing ionic liquid (IL) electrolytes are promising candidates for next-generatio...
Current efforts to improve sodium-ion batteries are heavily focused on developing high performance c...