Low temperature synthesis of polyhedral hollow porous carbon with high rate capability and long-term cycling stability as Li-ion and Na-ion battery anode material

“…In previous reports, oxygen-rich functional groups on the surface of carbon substrates were thought to benefit the absorption and release of Li + /Na + ion. [1,25,26] In order further to identify the surface functional groups of the PCNS, X-ray photoelectron spectra (XPS) was carried out. Typically, the characteristic peaks of C1s and O1s are displayed in Fig.…”

“…[38] In addition, the peak at 2.1 V was observed during the following cycles，and this process is closely related to Na-ion de-insertion from the PCNS-700. [1] The optimized PCNS-700 electrodes have unique carbon nanostructures, which is an ideal model for studying the storage of Li/Na-ion in carbon electrodes. As shown in the Scheme 1，the larger specific surface area of the PCNS-700 ensures that the electrolyte penetrates into the electrode completely.…”

“…In order to realize the above assumption, lithium ion batteries (LIBs) have been widely studied and commercialized in the past few decades. [1][2][3][4][5] Sodium ion batteries (SIBs) have similar electrochemical mechanisms to the LIBs. Meanwhile, sodium metal can be easily extracted from sodium chloride，therefore, SIBs are regarded as a potential candidate to replace the LIBs.…”

Al-based metal organic framework derived self-assembled carbon nanosheets as innovative anodes for Li- and Na-ion batteries

“…In previous reports, oxygen-rich functional groups on the surface of carbon substrates were thought to benefit the absorption and release of Li + /Na + ion. [1,25,26] In order further to identify the surface functional groups of the PCNS, X-ray photoelectron spectra (XPS) was carried out. Typically, the characteristic peaks of C1s and O1s are displayed in Fig.…”

“…[38] In addition, the peak at 2.1 V was observed during the following cycles，and this process is closely related to Na-ion de-insertion from the PCNS-700. [1] The optimized PCNS-700 electrodes have unique carbon nanostructures, which is an ideal model for studying the storage of Li/Na-ion in carbon electrodes. As shown in the Scheme 1，the larger specific surface area of the PCNS-700 ensures that the electrolyte penetrates into the electrode completely.…”

“…In order to realize the above assumption, lithium ion batteries (LIBs) have been widely studied and commercialized in the past few decades. [1][2][3][4][5] Sodium ion batteries (SIBs) have similar electrochemical mechanisms to the LIBs. Meanwhile, sodium metal can be easily extracted from sodium chloride，therefore, SIBs are regarded as a potential candidate to replace the LIBs.…”

Al-based metal organic framework derived self-assembled carbon nanosheets as innovative anodes for Li- and Na-ion batteries

“…To alleviate the demand for petroleum energy, lithium batteries are an indispensable alternative, and it is particularly important to reduce the negative impact of lithium batteries in a low-temperature environment. 11 Therefore, it is essential to understand the changes in battery performance at low temperature and the principle of the changes. Fundamentally, lowering temperature will slow down the rate of chemical reaction in lithium batteries, thus affecting the overall performance of batteries.…”

“…11 Therefore, it is essential to understand the changes in battery performance at low temperature and the principle of the changes. 11 Therefore, it is essential to understand the changes in battery performance at low temperature and the principle of the changes.…”

A review of the estimation and heating methods for lithium‐ion batteries pack at the cold environment

Extreme cold‐weather battery thermal management for optimal electric vehicle performance