Which coke can be used as the anode of lithium ion batteries?

4. Conclusions Some cokes, e.g. needle coke (1900) and metal- lurgical coke (1900), can be used as the anode of lithium ion batteries. Graphitized coke (treated at more than 2800) can give a much better cell performance if the passive film is improved properly.

Does in situ low-temperature carbon-coated by Coke affect electrochemistry?

The impact of in situ low-temperature carbon-coated by coke has been investigated by electrochemical tests including EIS, CV, and charge–discharge curves in detail. 2. Results and Discussion

What are the components of a lithium ion battery?

A typical lithium-ion battery comprises cathode and anode materials, a separator, and an electrolyte, with the cathode material representing a significant portion of the battery cost and playing a crucial role in the overall electrochemical performance and safety of the battery .

Does low-temperature carbonization capping improve the cycling stability of lithium batteries?

Notably, the LFP/C composite displayed exceptional rate capability, and capacity retention of 99.27% after cycling at different multiplication rates. These findings underscore the efficacy of in situ low-temperature carbonization capping of LFP with Coke in significantly improving both the cycling stability and rate capability of lithium batteries.

What is a lithium ion rechargeable battery?

Recently, a novel approach has been reported [5,6]. Instead of metallic lithium, carbonaceous materials were used as an anodic material based on the intercalation/deintercalation mechanism of lithium ions and therefore this new battery is called a lithium ion rechargeable battery.

What is the discharge capacity of LFP/C lithium batteries?

The resulting lithium batteries utilizing LFP/C as the cathode material exhibited impressive discharge specific capacities of 148.35 mA·h/g and 126.74 mA·h/g at 0.1 C and 1 C rates, respectively.