Hollow carbon spheres

Product Name

^{Name：Hollow carbon spheres}

Product Overview

^{Hollow carbon spheres are a type of carbon material with a hollow structure, with a hollow interior and a carbon shell surrounding the exterior. This structure endows hollow carbon spheres with many unique properties, such as high and low density, good conductivity, and thermal conductivity. As a carbon material with unique structure and excellent performance, hollow carbon spheres have been prepared by various methods, including template method, sol-gel method, self-assembly method, etc. Template method is one of the most commonly used methods for preparing hollow carbon spheres. This method involves selecting a suitable template, coating the carbon source on the surface of the template, carbonizing it to form a carbon shell layer, and finally removing the template to obtain hollow carbon spheres. The advantage of template method is that it can accurately control the size and morphology of hollow carbon spheres, and the process is relatively simple. Hollow carbon spheres have broad application prospects in energy storage, catalysis, drug delivery, and other fields.}

^{Technical Parameter}

^{Status：Black powder}

^{Particle size:00-400 nm}

^{Product Features}

^{Hollow structure, usually with a carbon layer shell, has a large internal space that can accommodate other substances.}

^{Low density: Due to its hollow interior, the overall density is relatively low.}

^{Good thermal stability: able to maintain structural stability at high temperatures.}

^{Application Fields}

^{Energy storage: For example, in lithium-ion batteries, it can be used as a negative electrode material. The empty structure can buffer the volume changes caused by lithium ion insertion and extraction, improving the cycling stability and rate performance of the battery.}

^{Catalyst carrier: Its high specific surface area and unique structure are advantageous for loading the active components of the catalyst.}

^{Drug carrier: The internal space can be used to load drug molecules and achieve controlled release.}

^{Adsorption separation: It has good adsorption performance for certain substances and can be used for separation and purification.}

^{Fuel cell: As a carrier for oxygen reduction catalysts in fuel cells, loading nano metal particles such as silver particles can improve the performance of fuel cells.}

^{Pesticide controlled release: Constructing an infrared responsive pesticide controlled release system, utilizing its good response ability to infrared light to control and regulate pesticide release, thereby achieving the effect of controlling pesticide loss and improving pesticide utilization.}

^{Related Information}

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

E-mail:sales@xfnano.com