Catalog |
name |
Description |
price |
R-AC-0021 |
Purple phosphorene/boron nitride aerogel |
Purple phosphorene/boron nitride aerogel is a composite material formed by integrating purple phosphorene with boron nitride into an aerogel structure. This composite material combines the unique properties of both purple phosphorene and boron nitride, resulting in a material with enhanced electronic, optical, and mechanical properties.Purple phosphorene, a newly discovered allotrope of phosphorus, offers exceptional semiconducting properties, while boron nitride contributes superior thermal and chemical stability. Combining these two materials within an aerogel matrix creates a multifunctional composite with a broad range of potential applications.The resulting composite aerogel holds promise for use in advanced electronic and optoelectronic devices due to its tunable bandgap, high thermal stability, and exceptional mechanical properties. Additionally, its unique combination of properties suggests potential in applications such as sensors, energy storage, and catalysis. |
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R-AC-0022 |
Silica @ metal oxide/graphene aerogel |
Silica @ metal oxide/graphene aerogel;SiO2 @ metal oxide/GO;Silica @ metal oxide/GO;SiO2 @ metal oxide/graphene aerogel from ruixi.Silica@metal oxide/graphene airgel dual-loaded double-coated composite material and its preparation method and application. The composite material is composed of silica-coated metal oxide nanoparticles dispersed and loaded with the pore structure of graphene aerogel. The preparation process is to drop a solution containing a metal source and a silicon source into a graphite oxide dispersion, and after ultrasonic mixing, perform a hydrothermal reaction. The product obtained by the hydrothermal reaction is freeze-dried and calcined. The composite material is used as a supercapacitor electrode material and exhibits good electrochemical properties. Its preparation method is simple, low-cost, environmentally friendly, and meets industrial production standards. |
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R-AC-0023 |
Silicon, iron oxide doped graphene aerogel |
Silicon, iron oxide doped graphene aerogel/Si,Fe oxide doped GO/Silicon, iron oxide doped GO/Si,Fe oxide doped graphene aerogel from ruixi. Silicon and iron oxide doped graphene airgel three-dimensional composite material is an advanced material with excellent performance and application prospects. First, silicon is a semiconductor material with good electrical conductivity and optical properties. In composite materials, the introduction of silicon can enhance the material electrical conductivity and optical response. Secondly, iron oxides are a class of compounds with magnetic and catalytic properties. In composite materials, the doping of iron oxide can impart magnetism and catalytic activity to the material, allowing it to play an important role in magnetic materials, catalysts and other fields. In addition, iron oxides can improve the thermal stability and mechanical properties of composite materials. Furthermore, graphene aerogel is a material with a porous structure and excellent electrical conductivity. Its porous structure enables the composite material to have specific surface area and adsorption properties, which can be used in adsorption, separation and other fields. When silicon, iron oxide and graphene aerogel are combined to form a three-dimensional composite material, these properties are further optimized. |
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R-AC-0024 |
Heteroatom-modified graphene aerogels |
Heteroatom-modified graphene aerogels/Heteroatom-modified GO are innovative materials that combine the exceptional properties of graphene with the functionalization offered by heteroatoms such as nitrogen, oxygen, or sulfur. These aerogels are typically lightweight, porous, and exhibit high surface area, making them promising for various applications.The introduction of heteroatoms into the graphene matrix enhances its chemical reactivity, electrical conductivity, and catalytic properties. This modification also enables tailored surface chemistry, which can be advantageous for applications in energy storage, catalysis, environmental remediation, and sensing.Due to their unique properties, these aerogels are being researched for use in supercapacitors, batteries, adsorbents for pollutant removal, and as efficient catalyst supports in various chemical reactions. The heteroatom-modified graphene aerogels represent a significant advancement in the development of multifunctional nanomaterials with diverse potential applications across different industries. |
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R-AC-0025 |
Three-dimensional porous graphene aerogel |
Three-dimensional porous graphene aerogels/Three-dimensional porous GO are advanced materials characterized by a unique interconnected network of graphene sheets, resulting in a lightweight, highly porous structure. These aerogels possess an open, scaffold-like morphology with a high surface area and low density, making them extremely promising for a wide range of applications.Owing to their exceptional properties, including high specific surface area, excellent mechanical strength, and good electrical conductivity, these aerogels are being explored for use in supercapacitors, oil spill cleanup, water purification, and as support materials for catalysts in various chemical reactions. The combination of graphene inherent properties with the 3D porous structure results in materials with unique properties that have the potential to significantly impact fields such as energy storage, environmental remediation, and beyond. |
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R-AC-0026 |
Graphite oxide/multi wall carbon nanotubes/polyvinyl alcohol ternary composite aerogels |
Graphene oxide/multi-walled carbon nanotubes/polyvinyl alcohol (GO/MWCNTs/PVA) ternary composite aerogel;GO/MWCNTs/PVA ternary composite aerogel adsorption material and its preparation method. GO/MWCNTs/PVA ternary composite aerogel was prepared by cyclic freezing-thawing method. The preparation method is green and environmentally friendly, does not produce any toxic by-products, has a simple preparation process and is low in cost. The prepared ternary composite aerogel has good adsorption capacity for methylene blue dye in aqueous solution. By adjusting the content of MWCNTs in the composite aerogel and the pH of the solution, the adsorption equilibrium can be quickly achieved, which is important in the field of industrial dye wastewater treatment. application value. |
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R-AC-0027 |
Zirconia (ZrO_ (2)) aerogel |
Zirconia (ZrO_ (2)) aerogel/Zirconia aerogel/ZrO2 aerogel from ruixi. Zirconia (ZrO_(2)) airgel material is a nanoporous material with ZrO_(2) as the main body and a three-dimensional cross-linked network structure. It has acid-base amphibiousness, redox properties, high specific surface area, high porosity and It has good thermal stability and chemical stability and other characteristics, and has a wide range of applications in fields such as thermal insulation, catalysis, adsorption, and energy storage. |
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R-AC-0028 |
ZrC fiber aerogel |
ZrC fiber aerogel/Zirconium carbide fiber aerogel from ruixi.Zirconium carbide (ZrC) fiber aerogels represent an advanced class of materials that combine the exceptional properties of ZrC fibers with the ultralight and porous characteristics of aerogels. These aerogels are formed by integrating interconnected ZrC fibers into a three-dimensional, porous network, resulting in a material with remarkable strength, high porosity, and low density.ZrC fiber aerogels exhibit outstanding thermal stability, exceptional mechanical robustness, and high specific surface area due to the porous structure. These properties make them well-suited for a variety of applications in extreme environments, such as aerospace, high-temperature insulation, and energy storage.The integration of ZrC fibers within the aerogel structure provides unique opportunities for enhancing heat resistance, mechanical strength, and thermal insulation properties, opening up possibilities for applications in thermal protection systems, lightweight structural components, and as a platform for catalyst support in demanding chemical processes. |
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R-AC-0029 |
Ternary FeCo2MyOx(OH)z loaded graphene oxide aerogel |
Ternary FeCo2MyOx(OH)z loaded graphene oxide aerogel material is gradually attracting widespread attention from scientific researchers due to its unique properties and application potential. This advanced composite material not only combines the magnetic and catalytic properties of FeCo2MyOx(OH)z with the conductive and mechanical advantages of graphene oxide, but also achieves the material versatility and efficient performance through the structural design of the aerogel. |
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R-AC-0030 |
Hydrated Iron Oxide Chitosan Loaded Graphene Oxide Aerogel |
Hydrated Iron Oxide Chitosan Loaded Graphene Oxide Aerogel is an advanced material with a unique combination of components. This aerogel consists of graphene oxide, which provides a vast surface area and exceptional mechanical strength, coupled with the porous chitosan matrix, and the functional properties of hydrated iron oxide.The incorporation of hydrated iron oxide into the chitosan-loaded graphene oxide framework offers enhanced magnetic properties and catalytic potential, making it suitable for applications such as environmental remediation, catalysis, and magnetic separations. The presence of chitosan further adds biocompatibility and antimicrobial properties to the aerogel.This composite aerogel presents an intriguing combination of properties, including high porosity, large specific surface area, and unique chemical reactivity, making it a versatile material for applications across various fields, such as environmental science, biomedicine, and catalysis. |
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