Catalog |
name |
Description |
price |
R-AC-0005 |
Polyurea (PUA) Aerogel |
Polyurea (PUA) Aerogel/Polyurea Aerogel/PUA Aerogel is hygroscopic and can absorb and retain moisture. This property makes polyurea aerogels useful in fields such as moisturizing, sewage treatment, and oil-water separation. Polyurea airgel has an internal porous structure, which makes it have good breathability. This property makes polyurea aerogels widely used in textiles, insoles and packaging materials. By changing the synthesis conditions and monomer types, the mechanical properties of polyurea aerogels, such as strength, elasticity, and flexibility, can be adjusted. This allows polyurea aerogels to be customized for different application needs. Polyurea aerogel has good biocompatibility and degradability and can be used safely in vivo. |
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R-AC-0006 |
Polyimide (PI) Aerogel |
Polyimide (PI) Aerogel/Polyimide Aerogel/PI Aerogel has the advantages of high specific surface area, low density, and low thermal conductivity, but it has problems such as easy moisture absorption, large shrinkage, large amounts of organic solvents and expensive chemical cross-linking agents used in the preparation process. The polyimide (PI) molecular chain has a unique imide ring and imide heterocyclic structure, so the PI material has a variety of excellent properties, such as high mechanical strength, low dielectric constant, chemical resistance and They have excellent temperature resistance and have become a research hotspot of high-performance engineering materials in recent years. PI aerogel has attracted widespread attention from researchers. It is a hot topic in polymer aerogel research and has broad application prospects in aerospace, high-end weapons and other fields. |
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R-AC-0007 |
Polybenzoxazine (PBZ) Aerogel |
Polybenzoxazine (PBZ) Aerogel/PBZ Aerogel/Polybenzoxazine Aerogel from ruixi. In the preparation process of polybenzoxazine aerogel, by controlling the reaction conditions and raw material ratio, airgel materials with high performance can be obtained. Its three-dimensional network structure allows the material to have low thermal conductivity and high specific surface area, thereby achieving a thermal insulation effect. The mechanical properties of polybenzoxazine aerogel, such as compressive strength, tensile strength, etc., enable it to maintain good stability in high temperature, high humidity and other environments. In the energy field, aerogels can be used for thermal management of solar collectors, lithium-ion batteries and other equipment to improve energy efficiency. In the field of environmental protection, aerogels can be used in environmental protection projects such as sewage treatment and exhaust gas treatment to achieve the adsorption and separation of pollutants. |
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R-AC-0008 |
Syndiotactic polystyrene (sPS) Aerogel |
Syndiotactic polystyrene (sPS) Aerogel/Syndiotactic polystyrene Aerogel/sPS Aerogel from ruixi. The preparation methods of syndiotactic polystyrene aerogels mainly include emulsion polymerization, suspension polymerization and bulk polymerization. Emulsion polymerization is a commonly used method. This method uses styrene as a monomer, and by adding auxiliary agents such as initiators and emulsifiers, the polymerization reaction is initiated in the water phase to obtain polystyrene latex particles. By controlling the particle size and concentration of latex particles and adding gelling agents, the latex particles are cross-linked to form a three-dimensional network structure to obtain syndiotactic polystyrene aerogel. |
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R-AC-0009 |
Poly (m-phenylenediamine) (PmPD) aerogel |
Poly (m-phenylenediamine) (PmPD) aerogels/Poly-m-phenylenediamine (PmPD) aerogels/Poly (m-phenylenediamine) aerogels/PmPD aerogels/Poly-m-phenylenediamine aerogels have many properties, such as high specific surface area, high porosity, low density, good thermal stability and chemical stability. These properties make polym-silanediamine aerogels widely used in adsorption, separation, catalysis, sensors and other fields. For example, the high specific surface area and porosity of polym-silanediamine aerogels make it an adsorbent material capable of removing heavy metal ions and organic pollutants from water. As an adsorption material, polym-silane diamine aerogel has adsorption performance and selectivity. It can be used in water treatment, air purification, exhaust gas treatment and other fields. For example, using poly-m-diamine aerogels in water treatment can remove heavy metal ions and organic pollutants in the water and improve the purity of water quality. The excellent properties of poly-m-diamine aerogels also make it a Sensor material. Because polym-silanediamine aerogel has a high specific surface area and good chemical stability, it can respond to various chemical substances and gases, so it can be used in gas sensors, biosensors and other fields. |
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R-AC-0010 |
Polyamine (PA) aerogel |
Polyamine (PA) aerogel/Polyamine aerogel/PA aerogel from ruixi. The high specific surface area and pore structure of polyamide aerogels make it an adsorbent material. It can be used to adsorb heavy metal ions, organic pollutants, etc. from aqueous solutions to achieve purification of wastewater. Polyamide aerogels can also be used for the separation and purification of gases, such as hydrogen, oxygen, etc. The porous structure and good thermal stability of polyamide aerogel make it a catalyst support. By loading the catalyst active components on the aerogel, the dispersion, stability and catalytic activity of the catalyst can be improved. Polyamide aerogels are widely used in petrochemical, environmental protection and other fields. The preparation of polyamide aerogels usually uses the sol-gel method, using polyamide as the precursor, and forming a three-dimensional network structure through reactions such as hydrolysis and polycondensation. During the preparation process, the pore structure, specific surface area and mechanical properties of the airgel can be controlled by adjusting factors such as reaction conditions, additive types and concentrations. |
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R-AC-0011 |
Polyvinylidene chloride (PVDF) aerogel |
Polyvinylidene chloride (PVDF) aerogel/Polyvinylidene chloride aerogel/PVDF aerogel is a remarkable material known for its lightweight structure, high porosity, and excellent thermal insulation properties. This aerogel is derived from polyvinylidene chloride, a polymer with strong hydrogen bonding and high tensile strength.PVDF aerogels possess a highly porous network structure, characterized by interconnected nanoscale pores, resulting in an extremely low density. This composition enables the aerogel to exhibit exceptional thermal insulation capabilities, making it suitable for a wide range of applications such as thermal insulation in aerospace, construction, and advanced clothing materials.Furthermore, PVDF aerogels also demonstrate promising potential in areas such as oil spill cleanup, as well as in medical and environmental applications due to their high surface area and adsorption capacity. These properties make PVDF aerogels a versatile material with diverse potential uses across various industries. |
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R-AC-0012 |
Polypyrrole (pPy) aerogel |
Polypyrrole (pPy) aerogel/Polypyrrole aerogel/pPy aerogel is a highly porous, lightweight material with a three-dimensional network structure composed of interconnected nanoparticles of polypyrrole. This aerogel is derived from polypyrrole, a conductive polymer known for its unique electrical and optical properties.Polypyrrole aerogels find utility in areas such as energy storage devices, including supercapacitors and batteries, due to their high surface area and excellent electrical conductivity. Additionally, they are being investigated for applications in catalysis, sensors, and as supports for various functional materials.The lightweight nature, combined with the conductive properties of polypyrrole aerogels, positions them as promising materials for advanced technological applications across different industries. |
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R-AC-0013 |
CPI/PI aerogel composite |
CPI/PI aerogel has a good porous structure, the specific surface area reaches 245 m^(2)/g, and the PI aerogel has excellent mechanical properties (elastic modulus above 10 MPa); the calcined CPI effectively improves the PI The aerogel has photocatalytic efficiency for oxytetracycline solution and has good cycle regeneration stability. The degradation rate of oxytetracycline solution after 5 cycles is 76%. |
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R-AC-0014 |
Cellulose based @ ZnFe2O4 composite aerogel |
A cellulose-based @ ZnFe2O4 composite aerogel is a novel material that combines the benefits of cellulose and zinc ferrite (ZnFe2O4) within a porous, lightweight structure. Cellulose, a biodegradable and renewable natural polymer, forms the scaffold of the composite aerogel. The inclusion of zinc ferrite nanoparticles further enhances its functionality.This composite aerogel exhibits a highly porous and interconnected network structure, providing a large surface area and effective porosity. As a result, it demonstrates commendable properties such as lightweight nature, excellent absorbency, and potential for multifunctional applications.The presence of zinc ferrite within the cellulose matrix allows for additional functionalities, such as magnetic properties and potential applications in fields like wastewater treatment, catalysis, and biomedical engineering. The composite magnetic properties make it suitable for applications requiring magnetic separation or targeted drug delivery, among other uses.The combination of cellulose and ZnFe2O4 in this composite aerogel results in a versatile material with potential applications in diverse fields, including environmental remediation, biotechnology, and advanced materials science. |
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