Catalog |
name |
Description |
price |
R-AC-0041 |
MnO2 microsphere/graphene aerogel |
MnO2 microsphere/graphene aerogel;MnO2 microsphere/GO from ruixi.Graphite oxide was prepared using an improved Hummers method. The prepared MnO2 microspheres were evenly dispersed in the graphene oxide dispersion, and the MnO2 microspheres/graphene aerogel composite (MnO2/GA) was self-assembled through hydrothermal reaction. Its phase, morphology, and specific surface area were characterized, and its electrochemical properties were tested. The results showed that the MnO2 microspheres were embedded and coated in graphene sheets, and at a current density of 0.5 A·g~(-1), The specific capacitance of MnO2/GA is 175.5 F·g~(-1), which is higher than the specific capacitance of MnO2 (78.4 F·g~(-1)), and after 1 000 cycles, MnO2/GA has more stable cycle performance . |
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R-AC-0042 |
Phenolic resin aerogel |
Phenolic resin aerogel is a kind of advanced functional material, which is based on phenolic resin and is prepared by gel, drying and other processes. It combines the excellent properties of phenolic resin itself, such as heat resistance, fire resistance, water resistance and insulation, as well as the high specific surface area, high porosity and low thermal conductivity of aerogel. The preparation of phenolic resin aerogels usually involves the synthesis method of sol gel polymerization. Because of its low density, high specific surface area, thermal isolation performance and other advantages, phenolic resin aerogels are used in the fields of thermal isolation, sound absorption and noise reduction, catalyst support and so on. |
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R-AC-0043 |
Biomass-based carbon aerogel |
Biomass based carbon aerogel is environmentally friendly and cheap. It not only has the characteristics of high stability, good conductivity, large specific surface area and adjustable pore structure, but also has the advantages of stable mechanical properties and good elasticity. It is an excellent base material for preparing composite materials. |
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R-AC-0044 |
Hexagonal boron nitride aerogel |
Hexagonal boron nitride aerogel/H-BN-based aerogel has a stable three-dimensional network structure and low density, and can be used as a highly thermally conductive ultra-light material or thermally conductive polymer additive. In addition, h-BN-based aerogel has an adjustable open pore structure and a high specific energy density. The surface area and compressibility can be used as an ideal adsorption material to adsorb toxic gases, heavy metal ions or organic pollutants in the air or water. |
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R-AC-0045 |
Graphene oxide/chitosan composite aerogel |
Graphene oxide/chitosan composite aerogel;GO/chitosan composite aerogel from ruixi. The integration of graphene oxide, a form of graphene containing oxygen-based functionalities, with chitosan, a biocompatible and renewable polymer, results in a scaffold with exceptional mechanical strength, high surface area, and an interconnected porous structure. The graphene oxide component provides the composite with excellent electrical and thermal conductivity, as well as high specific surface area, thereby enabling applications in energy storage, electrochemical devices, and sensors. Simultaneously, the chitosan component contributes biocompatibility, making the aerogel suitable for biomedical applications, such as tissue engineering scaffolds, drug delivery systems, and wound dressings. The interaction of the graphene oxide and chitosan components results in a material that can selectively capture various contaminants from the environment, offering potential solutions for addressing water and air pollution challenges.Due to the synergistic combination of properties from both constituents, graphene oxide/chitosan composite aerogels also find utility in industries requiring lightweight and durable materials, such as aerospace and automotive applications. |
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R-AC-0046 |
Polypyrrole/nitric acid activated carbon aerogel |
Polypyrrole/nitric acid activated carbon aerogel;PPy/nitric acid activated carbon aerogel from ruixi.Polypyrrole/nitric acid activated carbon aerogel refers to a composite material formed by the combination of polypyrrole (PPy) and nitric acid-activated carbon within an aerogel structure. This composite material possesses several distinct properties that make it suitable for a range of applications, including energy storage, adsorption, and environmental remediation.The incorporation of polypyrrole and nitric acid-activated carbon within the aerogel structure results in a material with enhanced electrical conductivity, high specific surface area, and tailored surface chemistry. This combination of properties makes the composite aerogel well-suited for applications in energy storage systems, such as supercapacitors and capacitive deionization devices. The presence of polypyrrole and activated carbon within the aerogel matrix promotes efficient charge transfer and provides ample surface area for energy storage applications. |
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R-AC-0047 |
Iron-nitrogen co-doped graphene carbon aerogels |
Iron-nitrogen co-doped graphene carbon aerogels/Fe-N co-doped graphene carbon aerogels from ruixi.Iron ammonia-doped graphene aerogel is a three-dimensional ammonia-doped lithene aerogel loaded with iron ammonia nanoparticles. A method for preparing the iron ammonia-doped graphene aerogel is provided. , including dispersing graphite oxide and organic iron compounds with a mass ratio of 1:0.5-4 in water to obtain a mixed solution of graphite oxide and organic iron compounds. Xenon iron/hydrogen doped graphene aerogel has the ability to catalyze oxygen reduction reaction and has low cost. |
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R-AC-0048 |
Tungsten carbide/Carbon Aerogel |
Tungsten carbide/Carbon Aerogel;WC/Carbon Aerogel from ruixi.Tungsten carbide (WC) has unique platinum like catalytic activity, stability in acidic and alkaline media, and is not easily deactivated. It is widely used in catalytic hydrogenation, dehydrogenation, isomerization, electrochemistry, and other fields. Therefore, the synthesis of tungsten carbide or tungsten carbide composites is of great significance Carbon aerogel is a kind of lightweight, porous, amorphous nano carbon material. Its continuous three-dimensional network structure can be controlled and tailored at the nanoscale. Because of its unique network structure, carbon aerogel has the characteristics of good conductivity, large specific surface area and wide range of density changes. It is an ideal electrochemical energy material, which can be used as lithium ion batteries, supercapacitor electrode materials, and fuel cell electrocatalyst carrier. |
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R-AC-0049 |
Three-dimensional porous structure Pt-Ag aerogel |
Three-dimensional porous structure Pt-Ag aerogel/Three-dimensional porous structure platinum-silver aerogel from ruixi.Three-dimensional porous structure Pt-Ag aerogels refer to advanced materials resulting from the combination of platinum (Pt) and silver (Ag) nanoparticles within a three-dimensional porous framework, typically in the form of an aerogel. Three-dimensional porous structure Pt-Ag aerogels represent a class of advanced materials with diverse applications in catalysis, electrochemical sensing, and energy-related fields. Their unique combination of properties, including high surface area, conductivity, and catalytic activity, positions them as promising materials for addressing challenges in energy, environmental sustainability, and advanced sensing technologies. |
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R-AC-0050 |
Cu Ag/carbon aerogel |
Cu Ag/carbon aerogel;Copper Silver/carbon aerogel from ruixi.Cu Ag/carbon aerogels are advanced composite materials that result from the combination of copper (Cu) and silver (Ag) nanoparticles with a porous carbon aerogel matrix. This composite material possesses unique properties, positioning it for applications in various fields, including catalysis, electrochemistry, and sensing.The incorporation of Cu and Ag nanoparticles into the carbon aerogel matrix results in a material with enhanced catalytic properties. Both Cu and Ag are known for their catalytic activity, and the porous nature of the carbon aerogel provides a large surface area and numerous active sites for catalytic reactions. This makes the composite aerogel ideal for applications in catalysis, including chemical synthesis, gas phase reactions, and environmental remediation. |
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