Catalog |
name |
Description |
price |
R-AC-0015 |
Particle type bulk TiO2 aerogel |
Particle type bulk TiO2 aerogel/Particle type bulk Titania aerogel from ruixi. Using butyl titanate as raw material, acid-catalyzed particle-shaped bulk TiO2 aerogel was successfully prepared using sol-gel method and supercritical drying, and its structural properties were studied using BET, TEM, SEM, IR and other instruments. Characterization. The results show that the aerogel has a high specific surface area (713.9m2/g) and a low density (the lowest is 35mg/cm3). The network distribution is uneven, the pore size is small, and the pore size distribution is mainly concentrated in 10~ 25nm. Infrared spectrum shows that the aerogel is composed of titanium oxyhydroxides and has no carbon-oxygen bonds. |
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R-AC-0016 |
High performance nanocomposites TiO2@SiO2 Aerogel |
TiO2@SiO2 aerogels are high-performance nanocomposites that exhibit exceptional properties due to their unique structure. These aerogels are composed of a titanium dioxide (TiO2) framework encapsulated within a silica (SiO2) matrix, creating a hierarchical nanostructure with remarkable characteristics. TiO2@SiO2 aerogels possess an incredibly high surface area, which is advantageous for various applications such as catalysis, adsorption, and energy storage. The high surface area is attributed to the nanoporous nature of aerogels.The aerogel structure consists of interconnected nanopores, forming a highly porous network. This exceptional porosity contributes to its lightweight nature and high adsorption capacity, making it suitable for applications in environmental remediation and filtration. TiO2@SiO2 aerogels have diverse applications including but not limited to environmental remediation, energy storage, thermal insulation, catalysis, sensors, and biomedical engineering due to their exceptional properties. |
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R-AC-0017 |
AgBr/titanium silicate aerogel |
AgBr/titanium silicate aerogels;Silver bromide/titanium silicate aerogel ;AgBr/Ti silicate aerogel;Silver bromide/Ti silicate aerogel are advanced nanocomposites known for their exceptional properties and diverse applications. These aerogels consist of silver bromide (AgBr) nanoparticles incorporated within a titanium silicate matrix, resulting in a unique composite material with a range of advantageous characteristics.The presence of AgBr in the titanium silicate aerogel imparts significant photocatalytic properties. These aerogels are capable of initiating photochemical reactions under light irradiation, making them valuable for applications such as environmental remediation, water purification, and air treatment.AgBr/titanium silicate aerogels represent a promising class of nanocomposite materials with unique properties that make them suitable for a wide range of applications, including environmental remediation, antibacterial surfaces, optical devices, and energy-related technologies. |
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R-AC-0018 |
Cerium neodymium doped titanium dioxide/carbon hybrid aerogels |
Cerium and neodymium doped titanium dioxide/carbon hybrid aerogels; Ce and Nd doped TiO2/carbon hybrid aerogels;Cerium and neodymium doped TiO2/carbon hybrid aerogels;Ce and Nd doped titanium dioxide/carbon hybrid aerogels are advanced nanocomposite materials that exhibit exceptional properties and are utilized across various fields due to their unique structure and composition. These aerogels are composed of titanium dioxide (TiO2) doped with cerium (Ce) and neodymium (Nd), integrated with a carbon framework, resulting in a multifunctional material with a wide range of advantageous characteristics. cerium and neodymium doped titanium dioxide/carbon hybrid aerogels represent a highly versatile class of nanocomposite materials, offering a unique combination of properties suitable for applications in environmental remediation, energy storage, flexible electronics, and beyond. |
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R-AC-0019 |
TiO2/RGO aerogel |
TiO2/RGO aerogel;Titanium dioxide/RGO aerogel from ruixi. The preparation method and application belong to the technical fields of material preparation and environmental purification. Using cysteine as the reducing agent and cross-linking agent, TiO2 is loaded on RGO airgel through a simple one-step hydrothermal method for the first time to form TiO2/RGO airgel. The gel has a macrostructure of 2.0cm in diameter and 3.5cm in height. |
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R-AC-0020 |
PI/Ag aerogel |
PI/Ag aerogel;Polyimide/Ag aerogel;PI/Argentum aerogel;Polyimide/Argentum aerogel from ruixi.PI/Ag aerogel composite photocatalytic material and its preparation method and application. The preparation method of the PI/Ag aerogel composite photocatalytic material includes: S1. Using diamine and dianhydride as reaction precursors, add AgNO3 solution , add cross-linking agent, catalyst and dehydrating agent, select reducing solvent, and prepare PI/Ag wet gel using sol-gel method; S2. After aging the wet gel prepared in step S1 in ethanol, use ethanol supercritical Technology can be obtained by drying. |
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R-M-G27 |
Boron nitride doped nanowire aerogel |
Boron nitride-doped nanowire aerogel material/Boronnitride-doped nanowire aerogel material is a new composite material that combines the advantages of boron nitride and nanowire aerogel. This material not only inherits the high specific surface area, low density and good thermal insulation properties of nanowire aerogels, but also further improves its high temperature resistance, high strength and toughness properties through the doping of boron nitride. As a high-performance ceramic material, boron nitride has the characteristics of high temperature resistance, oxidation resistance and chemical stability. Doping chess pieces into nanowire aerogels can improve the thermal stability and mechanical properties of the material. At the same time, the nanowire aerogel itself has a three-dimensional network structure and a high specific surface area, which is conducive to the uniform dispersion and stable existence of boron nitride nanoparticles. |
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R-M-G28 |
N-doped TiO2/C-NFC aerogel |
N-doped TiO2/C-NFC aerogel;N-doped Titanium Dioxide/C-NFC aerogel;N-doped TiO2/Carbon Nanofiber aerogel;N-doped Titanium Dioxide/Carbon Nanofiber aerogel from ruixi. The N-doped TiOz/C-NFC aerogel type adsorption-photodegradation integrated material is a combination of N-doped TiOz nanoparticles, carbon nanofiber aerogel (C-NFC) and adsorption photodegradation-integration functions. of composite materials. This material not only inherits the high specific surface area and adsorption performance of carbon nanofiber aerogels, but also imparts photocatalytic degradation capabilities through the introduction of N-doped TiOz, thereby achieving rapid adsorption and photocatalytic degradation of organic pollutants. C-NFC aerogel has a high specific surface area and porous structure, and has strong adsorption capacity for organic pollutants. |
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R-M-G29 |
C-NFC/CS aerogel |
C-NFC/CS aerogel;Carbon Nanofiber/Chitosan Aerogel;C-NFC/Chitosan Aerogel;Carbon Nanofiber/CS aerogel from ruixi. C-NFC/CS aerogel adsorbent material is a composite adsorbent material that combines the advantages of carbon nanofiber aerogel (C-NFC) and chitosan (CS). This material not only inherits C-NFC has high specific surface area, electrical conductivity and mechanical Performance, and its biocompatibility and adsorption performance are also enhanced by introducing CS, thus showing broad application prospects in the fields of sewage treatment, heavy metal ion removal, and biomedicine. |
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R-M-G30 |
Flexible SiO2 aerogel modified by carbon nanotubes doping |
Flexible SiO2 aerogel modified by carbon nanotubes doping/Flexible Silica aerogel modified by CNT doping/Flexible SiO2 aerogel modified by CNT doping/Flexible Silica aerogel modified by carbon nanotubes doping from ruixi. Flexible SiO2 aerogel modified with carbon nanotubes is a composite material that combines the high strength and conductivity of carbon nanotubes with the flexibility, high surface area and other properties of SiO2 aerogel. First, the high strength properties of carbon nanotubes improve the mechanical properties of flexible SiO2 aerogels, enhancing their durability and stability in practical applications. Secondly, the high conductivity of carbon nanotubes gives the airgel conductive properties, making it potentially useful in electronic devices, sensors and other fields. |
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