Soft carbon fiber cloth

Product Name

^{Name:Soft carbon fiber cloth}

Product Overview

^{Soft carbon, also known as easily graphitized carbon material, refers to amorphous carbon materials that can graphitize at high temperatures above 2500 ¡ãC}

^{When soft carbon is first charged and discharged, its irreversible capacity is high, the output voltage is low, and there is no obvious charging and discharging plateau.}

^{Its crystallinity is low, interlayer spacing is large, and it has good compatibility with the electrolyte, resulting in excellent low-temperature performance and good rate performance.}

^{Due to the above characteristics, soft carbon is generally not used independently as a negative electrode material, but is usually used as a coating or component of the negative electrode material.}

^{In lithium-ion batteries, negative electrode materials play an important role in the performance of the battery. Although soft carbon itself has some limitations, the performance of batteries can be improved to some extent by combining or optimizing its use with other materials. The preparation process of soft carbon negative electrode materials is relatively simple, including raw material pretreatment, mixing, granulation, molding, and drying. These processes can obtain raw materials and reduce production costs by recycling by-products such as waste batteries.}

^{The preparation process of soft carbon negative electrode materials does not use toxic and harmful oxidants, which can reduce environmental pollution and resource waste, and is in line with the concept of environmental sustainability.}

^{Technical Parameter}

Appearance:Black fiber cloth

Thickness:400-500 μm（SEM:/span>

^{Product Features}

^{Good electrochemical performance: When soft carbon is used as a negative electrode material for batteries, it exhibits a low and stable charge and discharge potential plateau, large charge and discharge capacity and high efficiency, and good cycling performance. These electrochemical properties make soft carbon have broad application prospects in the field of lithium-ion batteries.}

^{High porosity: Soft carbon materials typically have a higher porosity, which provides them with more adsorption and reaction sites. This enables soft carbon to exhibit outstanding performance in fields such as supercapacitors and hydrogen storage materials.}

^{Good conductivity and thermal stability: Despite the low crystallinity of soft carbon, it still has good conductivity and thermal stability. This enables soft carbon to maintain stable performance in high temperature and electrochemical environments, meeting various application requirements.}

^{Application Fields}

^{Battery negative electrode material: Soft carbon is an important component of battery negative electrode material, which has the advantages of low and stable charge and discharge potential platform, large charge and discharge capacity and high efficiency, and good cycling performance. The microstructure of soft carbon materials is mainly determined by the sintering temperature. Soft carbon materials prepared below 1000 ¡ãChave lower crystallinity, numerous defects, and provide a large number of active sites, which are conducive to the smooth deintercalation of lithium and sodium ions. This enables soft carbon to exhibit excellent electrochemical performance in batteries, meeting the requirements of high energy density and long cycle life.}

^{Supercapacitors: Supercapacitors are a new type of energy storage device with advantages such as fast charging and discharging speed, high power density, and long cycle life. Soft carbon materials are widely used as electrode materials for supercapacitors due to their high specific surface area, high porosity, and good conductivity. Soft carbon materials can provide more charge storage space, improve the energy density and power density of supercapacitors, while maintaining good cycling stability.}

^{Catalyst carrier: Soft carbon materials are used as carriers for catalysts due to their high specific surface area and good chemical stability. In catalytic reactions, soft carbon materials can provide more active sites, improving the catalytic activity and selectivity of the catalyst. Meanwhile, soft carbon materials can also form stable composite structures with catalysts, enhancing their stability and durability.}

^{Related Information}

^{Please e-mail for the detailed characterization data.}

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