Catalog |
name |
Description |
price |
R-M-G31 |
Carbon Fiber Aerogel |
Carbon fiber aerogel is an inorganic composite material with carbon fiber as the main material and some silicon aerogel added. Its density is slightly larger than that of carbon aerogel, so it does not have the lightness of carbon aerogel. However, carbon fiber aerogels perform well in thermal insulation and have good thermal insulation effects. Therefore, they are often used as building materials for thermal insulation and can even be used in scientific experiments. |
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R-M-G32 |
Natural silicate composite silica aerogel |
Natural silicate composite silica aerogel/Natural silicate composite SiO2 aerogel from ruixi. Natural silicate material composite silica aerogel is a new composite material that combines the properties of natural silicate materials with the unique structural advantages of silica aerogel. While retaining the excellent properties of natural silicate materials, this composite material further improves its performance and application scope by introducing silica aerogel. Natural silicate materials are a type of inorganic non-metallic materials that exist in nature and have good chemical stability, mechanical properties and thermal stability. Silica aerogel is a nanoporous material with high specific surface area, porosity, low density and low thermal conductivity. This composite material not only inherits the excellent properties of natural silicate materials, but also further improves the surface area, porosity and adsorption performance by introducing the nanoporous structure of silica aerogel. |
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R-M-G33 |
Polysiloxane aerogel |
Polysiloxane aerogel/Silicone aerogel from ruixi. Polysiloxane aerogel composite materials combine the performance of polysiloxane with the high specific surface area and porosity of aerogel, providing possibilities for applications in many fields. Polysiloxane, also known as silicone, is a type of polysiloxane airgel composite material with silicon-oxygen bonds as the main chain. It not only inherits the stability and electrical properties of polysiloxane, but also through the introduction of aerogel , greatly increasing the specific surface area and porosity, thereby enhancing its adsorption, catalytic and other properties. In addition, polysiloxane airgel composite materials also have good processing properties and plasticity. By adjusting the preparation process and formula, precise control of material properties can be achieved. This makes the material have broad application prospects in many fields such as heat insulation, sound absorption, adsorption, and catalysis. |
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R-M-G34 |
Hydroxyapatite/graphene aerogel |
Hydroxyapatite/graphene aerogel;HAP/graphene aerogel from ruixi. Graphene (GE) aerogel is a special three-dimensional structure that has been one of the focuses of research in the field of carbon materials in recent years. It has excellent stability and huge specific surface area, and can be used as an excellent carrier material and adsorption material. Materials. Hydroxyapatite (HA) is an inorganic component in hard tissue. It has good biocompatibility and is an excellent adsorption material for metal ions.The hydroxyapatite/graphene aerogel exhibits promising characteristics, including high porosity, large specific surface area, mechanical strength, and biocompatibility. These properties make it an attractive material for diverse applications, including biomedical scaffolds, environmental remediation, energy storage, and catalysis. |
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R-M-G35 |
Nitrogen-doped graphene aerogel supported ferrocene polyaniline |
Nitrogen-doped graphene aerogel supported ferrocene polyaniline/N-doped GE aerogel supported ferrocene polyaniline from ruixi.Nitrogen-doped graphene aerogel supported ferrocene polyaniline is an advanced functional material with broad application prospects. This material combines the advantages of nitrogen-doped graphene aerogel and ferrocene polyaniline, and achieves performance optimization through precise control of experimental conditions. It is widely used in energy storage, catalysis, sensors and other fields, such as high-performance lithium-ion battery cathode materials, efficient catalyst carriers and high-sensitivity sensors. |
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R-M-G36 |
Iron doped titanium dioxide aerogel |
Iron doped titanium dioxide aerogel/Fe doped TiO2 aerogel/Iron doped TiO2 aerogel/Fe doped titanium dioxide aerogel from ruixi. Iron-doped titanium dioxide aerogel is a unique material that combines the properties of titanium dioxide (TiO2) with the incorporation of iron (Fe) ions. This doping process introduces new characteristics and functionalities to the aerogel, extending its potential applications.Titanium dioxide aerogels are known for their high surface area, low density, and photocatalytic properties, which make them suitable for environmental remediation and energy-related applications. The addition of iron dopants can further enhance these properties. Iron doping can modify the electronic structure of titanium dioxide, leading to improved photocatalytic activity, visible light absorption, and charge separation efficiency.These materials hold promise for a wide range of applications, including environmental remediation, energy production, and potentially in other fields where heterogeneous catalysis and light-driven processes are relevant. |
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R-M-G37 |
Graphene aerogel composites loaded with calcium hydroxide |
Calcium hydroxide-loaded graphene(GE) aerogel composite is a new material that combines the excellent properties of calcium hydroxide and graphene aerogel. Calcium hydroxide, as a common inorganic compound, has a wide range of applications in many industrial fields, especially in the environmental protection field, such as for treating acidic gases and adsorbing VOCs (volatile organic compounds). Graphene aerogel, with its high specific surface area, porous structure and excellent conductivity, provides good support and performance foundation for composite materials. A preparation method and application of a calcium hydroxide-loaded graphene airgel composite material, which belongs to the technical field of graphene airgel and can solve the problems of limited absorption capacity and complex production process of existing industrial harmful gas treatment and absorption methods. The invention adopts a step-by-step synthesis method. First, the precipitation method is used to synthesize calcium hydroxide particles, and the electrolytic oxidation method is used to synthesize graphene oxide. In the next step, the hydrothermal synthesis method is used to polymerize calcium hydroxide and graphene oxide, and finally the load is obtained. Calcium hydroxide graphene airgel composite material, this composite material can be used for SO. |
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R-M-G38 |
Porphyrin covalent organic framework/graphene aerogel composite |
Porphyrin covalent organic framework/graphene aerogel composite;PCOF/GA;Porphyrin covalent organic framework/GA;PCOF/graphene aerogel from ruixi. Porphyrin covalent organic framework/graphene aerogel composite material is a new type of functional composite material that combines the advantages of porphyrin covalent organic framework (PCOF) and graphene aerogel (GA). This composite material has shown great application potential in many fields. Since the porphyrin covalent organic framework/graphene airgel composite has a 3D porous structure and exhibits a higher specific surface area, higher conductivity and electrochemical activity for catalytic oxidation, it is coated on the glassy carbon electrode to form The working electrode is used in the Meijian ammonia monoxide electrochemical sensor. The sensor can be used for real-time detection of xenon monoxide released from cells. The sensor shows a lower detection limit and higher selectivity in actual detection, and Its electrochemical performance is stable and its cycle life is long. |
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R-M-G39 |
Graphite Oxide Aerogel Densely Coated Zinc Cobalt Complex |
Graphene(GE) oxide aerogel densely coated zinc cobalt oxide composite combines the advantages of both materials and has excellent electrical properties, chemical stability and mechanical strength. It can be used in batteries, supercapacitors, electrochemical sensors and other fields, showing broad application prospects. This innovative nanomaterial provides new ideas for scientific research and technological applications. |
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R-M-G40 |
Dopamine modified graphene aerogel (DA-rGA) |
Dopamine-modified graphene aerogel (DA-GA) is a new composite material that combines the biocompatibility and adhesion of dopamine with the excellent physical and chemical properties of graphene aerogel. This material, through the modification of dopamine, not only enhances the stability and mechanical properties of graphene aerogel, but also gives it more functions and application potential. Dopamine, as a bioactive molecule, has excellent adhesion and biocompatibility. By introducing it into graphene aerogel, the surface of graphene aerogel can be effectively modified, thereby improving its stability and dispersion. In addition, the introduction of dopamine can also bring better stability to graphene aerogel. Multiple bioactive groups enhance its ability to interact with other biomolecules, providing more possibilities for its application in the biomedical field. |
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