Графитна анодна батерија

(Графитна анодна батерија)

Графитна анодна батерија се произведува многу години. Сепак, Познато е дека генерира запаливи гасови кога се користи во производството на електрични возила. Because of the safety risks associated with this material, researchers are now developing new alternatives to replace it in LIBs.

Силикон (И), MXenes, and carbon based compounds are examples of anode materials with superior performance. The morphology and chemical composition of these anodes are important to the performance of Li-ion batteries.

While these new anodes have good electrical conductivity and hydrophilicity, they still encounter problems such as restacking and a low specific capacity. Сепак, they have an attractive advantage: they are nontoxic and have high power density. Покрај тоа, they are able to store energy as well as maintain an excellent cycling stability.

Graphite anodes are manufactured by bonding carbonaceous fillers with carbon-yielding binders. They are then placed in an electric graphite furnace and baked at 1,000 degC. After reheating at 250 degC, they are extruded into rods. During the charging and discharging process, the anode experiences a series of electrochemical reactions.

Anode material degradation can be studied by X-ray diffraction (XRD) and transmission electron microscopy (ТЕМ). XRD findings are very helpful in understanding the origins of the mechanical degradation. Дополнително, the TEM helps to verify the differences between the graphitic nanoparticles. SEM images show side reaction products that can be caused by the degrading process.

XRD and SEM also provide a window to analyze the interfacial kinetics between the electrolyte and anode. Покрај тоа, the XRD results can help to understand the formation of DISs.

(Графитна анодна батерија)