Catalog |
name |
Description |
price |
R-M-G01 |
Yttrium-doped Alumina (Y-Al2O3) aerogels |
Yttrium-doped Alumina (Y-Al2O3) aerogels/Y-doped Al2O3 aerogel/Yttrium-doped Alumina aerogels/Y-doped Alumina aerogel from ruixi. The prepared Y-doped Al2O3 aerogel has a high initial specific surface area (483 m2/g) and a high specific surface area retention at high temperatures (still 80 m2/g after treatment at 1200°C). The Y element in Al2O3 The uniform distribution in the airgel inhibits the diffusion and rearrangement of Al3+ at high temperatures. After heat treatment at 1200~1300°C, the Y element changes from uniform distribution to non-uniform distribution, and compounds of Y and Al are generated on the surface of Al2O3 particles, which can further Reduce the neck contact between particles and inhibit sintering and phase change. After heat treatment at 1300°C, due to the low specific surface area of the compounds of Y and Al, the total specific surface area of the airgel decreased significantly.Yttrium-doped Alumina (Y-Al2O3) aerogels are known for their thermal stability, low dielectric constant, and potential applications in fields such as catalysis, insulation, and aerospace due to their unique combination of properties. |
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R-M-G02 |
Al2O3-SiO2 aerogel composite material |
Al2O3-SiO2 aerogel/alumina-silica aerogel from ruixi. Al2O3-SiO2 is commonly known as alumina-silica or aluminosilicate. This composite material combines alumina (Al2O3) and silica (SiO2) and is used in various applications, including ceramics, refractories, and catalyst supports due to its favorable thermal and chemical properties.The network structure of Al2O3-SiO2 aerogel is mainly composed of long strip-shaped particles stacked and cross-linked with each other, and has a relatively obvious three-dimensional spatial network structure.After heat treatment of Al2O3-SiO2 aerogel at 1200℃, the sample still has a specific surface area as high as 173m2/g. |
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R-M-G03 |
Bimetal-Doped Alumina Aerogel |
Bimetal-Doped Alumina Aerogel/Bimetal-Doped Al2O3 Aerogel from ruixi. The bimetal doped alumina aerogel is composed of transition metal inorganic salt A, transition metal inorganic salt B and aluminum salt; the molar ratio of the sum of transition metal inorganic salt A and transition metal inorganic salt B: aluminum salt is 1:17 ~30; the transition metal inorganic salt A and the transition metal inorganic salt B are two types of ferric chloride, copper chloride and cobalt chloride. The structure has a large specific surface area and rich pore structure, and can effectively degrade organic pollutants; the strong interaction between transition metals and alumina airgel carriers solves the problem of secondary pollution caused by metal ions falling off into water; preparation When bimetallic ions are dispersed in alumina aerogels through a sol-gel one-step method, excellent catalytic activity can be obtained by loading a small amount of transition metals. Bimetallic-doped alumina aerogels are massive and can be easily separated. , reusable and extremely stable. |
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R-M-G04 |
(SrO) Strontium-doped Alumina (Al2O3) Aerogel |
Strontium-doped Alumina Aerogel/SrO-doped Al2O3 Aerogel from ruixi. Strontium-doped Alumina (Al2O3) Aerogel is a composite material where the base material, alumina (Al2O3), is doped with strontium (SrO). This modification can impart specific properties to the aerogel, making it potentially useful in various applications such as catalysis, gas storage, and solid-state electronics. The addition of strontium can affect the electronic and catalytic properties of the material, expanding its potential use in diverse fields such as energy storage and heterogeneous catalysis. |
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R-M-G05 |
NiO-Al2O3 aerogel |
NiO-Al2O3 aerogel/Nickel Oxide-Alumina aerogel from ruixi. NiO-Al2O3 aerogel is a composite material consisting of nickel oxide (NiO) and alumina (Al2O3) in an aerogel form. This material combines the properties of both components and can exhibit enhanced properties such as high surface area, porosity, and potentially catalytic or adsorptive behavior, making it useful in applications such as catalysis, gas sensing, and energy storage. |
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R-M-G06 |
Alumina/Titanium Dioxide Composite Aerogel |
Alumina/Titanium Dioxide Composite Aerogel/Al2O3/Ti Dioxide Composite Aerogel from ruixi. Alumina/Titanium Dioxide Composite Aerogel refers to a material created by combining alumina and titanium dioxide into an aerogel form. This composite can possess advantageous properties such as lightweight structure, high surface area, and potential applications in areas like catalysis, pollution remediation, and energy storage. |
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R-M-G07 |
Binary Wet Gel |
Binary wet gel composed of nickel nitrate and aluminum isopropoxide as raw materials is a precursor material used in the production of various nanostructured materials such as metal oxides, catalysts, and functional coatings. This gel is often utilized in the sol-gel process for creating advanced composite materials with specific properties tailored for diverse applications in fields like catalysis, sensors, and optics. |
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R-M-G08 |
Resorcinol organic aerogel |
Resorcinol organic aerogel is a highly porous and lightweight material formed through the gelation and subsequent drying of resorcinol and formaldehyde. This organic aerogel exhibits exceptional properties such as high surface area, low density, and thermal insulation. It finds applications in areas such as environmental remediation, thermal insulation, energy storage, and as a substrate for catalysts or sensors. Due to its unique structure and properties, it is also of interest for research in advanced materials and nanotechnology. |
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R-M-G09 |
TiO-SiO composite aerogel |
TiO-SiO composite aerogel/Titanium Dioxide-Silica Composite Aerogel is a material that combines titanium dioxide (TiO2) and silica (SiO2) into a porous, lightweight structure. This composite aerogel possesses properties such as high surface area, low density, and potential photocatalytic activity due to the presence of titanium dioxide. It can be utilized in applications such as environmental remediation, photocatalysis, and as an insulating material. Additionally, its unique structure and properties make it suitable for use in various advanced technological and scientific applications. |
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R-M-G10 |
FeO-SiO Aerogel |
FeO-SiO Aerogel/Iron oxide-silica aerogel is a composite material formed by combining iron oxide (FeO) and silica (SiO2) into a highly porous, lightweight network. This aerogel exhibits properties such as high surface area, low density, and potential magnetic characteristics due to the presence of iron oxide. It can be applied in various fields such as catalysis, adsorption, and magnetic separation due to its unique properties. Additionally, its porous structure makes it suitable for applications like insulation and environmental remediation. |
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