Sulfur-doped graphene sponges (S-GS,,Aerogel)

Product Name

^{Name: Sulfur-doped graphene sponges (S-GS,,Aerogel)}

Product Overview

^{Sulfur doped graphene sponge is a composite material based on graphene sponge, in which sulfur elements are doped into the lattice of graphene through certain methods to change its physical and chemical properties. This material has broad application prospects in fields such as energy storage, catalysis, and environmental protection.}

^{Technical Parameter}

Synthetic method: Hydrothermal

Shape: Cylinder

Size:  d：~1cm；h：~2cm

Specific surface area：~ 79 m2·g-1

Density: ~95 mg·cm-3

^{Product Features}

^{High conductivity: Graphene itself has high conductivity, and sulfur doping may further improve its conductivity, which is beneficial for rapid electron transfer.}

^{High specific surface area: Graphene sponge has a three-dimensional porous structure, providing a huge specific surface area, which is conducive to the adsorption of gases and liquids and the occurrence of catalytic reactions.}

^{Special chemical properties: Sulfur doping may alter the chemical properties of graphene, such as enhancing its catalytic activity, adsorption capacity, etc., thereby enabling it to exhibit better performance in specific applications.}

^{Excellent mechanical properties: Graphene sponge has good flexibility and elasticity, and can withstand certain compression and bending without fracture.}

Application Fields

^{Energy storage: Sulfur doped graphene sponge can be used as a positive electrode material for new batteries such as lithium sulfur batteries, improving the cycling stability and energy density of the battery.}

^{Catalysis: Utilizing its high specific surface area and unique chemical properties as a catalyst or catalyst carrier, it plays a role in fields such as chemical synthesis and environmental purification.}

^{Gas adsorption and separation: It can be used to adsorb and separate gases such as carbon dioxide and methane, and has potential applications in energy, environmental protection, and other fields.}

^{Biomedical: It can be used in fields such as drug delivery systems and biosensors, utilizing its good biocompatibility and special properties to achieve controlled drug release and accurate detection of biological signals.}

^{Related Information}

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

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