B-doped Graphene Sponges (Foams, Aerogels)

Product Name

^{Name:B-doped Graphene Sponges (Foams, Aerogels)}

Product Overview

^{Boron doped graphene sponge is a three-dimensional porous material prepared by doping boron atoms into graphene structures and using specific processes. This material combines the excellent properties of graphene with the unique properties brought by boron doping, demonstrating potential application value in multiple fields.}

^{Technical Parameter}

^{Synthetic method: Hydrothermal}

^{Shape: Cylinder}

^{Size:  d：~1cm；h：~2cm}

^{Specific surface area：~ 200 m2·g-1}

^{Density: ~40 mg·cm-3}

^{Product Features}

^{Three dimensional porous structure: Boron doped graphene sponge has a stable three-dimensional network structure, providing a huge specific surface area and rich pore structure, which is conducive to the adsorption of gases and liquids and the occurrence of catalytic reactions.}

^{Excellent conductivity: Boron doping may improve the conductivity of graphene to a certain extent, making boron doped graphene sponge potentially applicable in electronic devices, sensors, and other fields.}

^{Enhanced chemical stability: Boron doping may enhance the chemical stability of graphene, allowing it to maintain good performance in certain harsh environments.}

Application Fields

^{Electrochemical energy storage: Boron doped graphene sponge can be used in electrochemical energy storage devices such as supercapacitors and lithium-ion batteries to improve energy density and cycling stability.}

^{Oil water separation: By utilizing its three-dimensional porous structure and hydrophobic properties, boron doped graphene sponge can be used in the field of oil water separation to effectively remove oil stains from water.}

^{Gas sensing: Boron doped graphene sponge also has potential applications in the field of gas sensing, which can be used to detect harmful gases or specific gas components in the air.}

^{Catalyst carrier: Its high specific surface area and excellent catalytic performance make it an ideal carrier for catalysts, which can be used to accelerate chemical reactions and improve yields.}

^{Related Information}

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

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