Catalog |
name |
Description |
price |
R-M-G21 |
Nitrogen-Doped Carbon Microsphere Graphene Composite Aerogel |
The Nitrogen-Doped Carbon Microsphere Graphene Composite Aerogel is a material that combines nitrogen-doped carbon microspheres and graphene within an aerogel structure. This composite material offers a high surface area and a porous network due to the aerogel matrix, combined with the unique properties of the nitrogen-doped carbon and graphene. The inclusion of nitrogen-doping enhances the material potential for applications in energy storage, catalysis, and adsorption due to its tailored chemical reactivity and conductivity. Additionally, the graphene component provides mechanical strength and conductivity, making this aerogel suitable for various advanced technological and scientific applications, including energy storage devices, environmental remediation, and catalytic systems. |
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R-M-G22 |
Ni(OH)2/NiOOH Microsphere-loaded Carbon Aerogel |
Ni(OH)2/NiOOH Microsphere-loaded Carbon Aerogel;Nickel Hydroxide/Nickel Oxyhydroxide Microsphere-loaded Carbon Aerogel is a composite material that incorporates nickel hydroxide (Ni(OH)2) and nickel oxyhydroxide (NiOOH) microspheres into a carbon aerogel structure. This composite material provides a high surface area and porous framework due to the aerogel matrix, combined with the specific properties of the nickel-based microspheres. The inclusion of these microspheres enhances the material potential for applications in energy storage devices, catalysis, and electrochemical systems due to the tailored chemical reactivity and capacitance provided by the nickel-based compounds. Additionally, the carbon aerogel structure provides mechanical robustness and conductivity, making it suitable for various advanced technological and scientific applications, including energy storage systems, electrocatalysis, and sensing devices. |
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R-M-G23 |
Polyimide Aerogel with SiO2 Nanospheres |
Polyimide Aerogel with SiO2 Nanospheres/Polyimide Aerogel with Silica Nanospheres is a composite material that integrates SiO2 nanospheres into a polyimide aerogel structure. This material combines the advantageous properties of polyimide, known for its high-temperature stability and mechanical strength, with the unique characteristics of SiO2 nanospheres, which provide a high surface area and porous structure. The resulting composite material exhibits potential for applications in insulation, aerospace, and as a lightweight structural material. Additionally, the incorporation of SiO2 nanospheres enhances thermal and mechanical properties while maintaining a low density, making it suitable for various advanced technological and scientific applications, particularly in high-temperature environments and aerospace engineering. |
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R-M-G24 |
(Y2O3) yttrium oxide doped alumina (Al2O3) bulk aerogel |
(Y2O3) yttrium oxide doped alumina (Al2O3) bulk aerogel; yttrium oxide doped alumina bulk aerogel;Y2O3 doped Al2O3 bulk aerogel, the doping content is controlled in the range of 2.5wt% ~ 30wt% Y2O3. The results show that the doping of yttrium oxide can make the alumina aerogel in Maintain a high specific surface area and improve its thermal stability at high temperatures. After heat treatment at 1000°C, the 5.0wt% Y2O3-Al2O3 aerogel is still in an amorphous form, without phase transition, and the specific surface area is still 380~400 m2/ g, much higher than pure Al2O3 aerogel (174 m2/g). |
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R-M-G25 |
Carbon Nanotube Aerogel |
Carbon nanotube Aerogel/Carbon nanotubes(CNT) Aerogel/CNT Aerogel is a kind of carbon nanotube with dispersion properties. This paper prepared carbon nanotube aerogel through independent research and development of experimental equipment, and prepared carbon nanotube aerogel/natural rubber composite through traditional processes. Material, the mechanical properties and thermal conductivity of the composite material were studied. The results proved that the tensile strength, tear strength and thermal conductivity of the composite material were improved by 47%, 52% and 49.9 respectively compared with the carbon black/natural rubber composite material. %, while revealing the good dispersion properties of carbon nanotube airgel and its broad application prospects. |
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R-M-G26 |
La2O3-doped bulk alumina aerogel |
La2O3 doped bulk alumina aerogels/Lanthanum oxide doped bulk alumina aerogels/La2O3-doped bulk Al2O3 aerogel/Lanthanum oxide doped bulk Al2O3 aerogels with different La2O3 contents are prepared by using aluminum tri-sec-butoxide as precursor via sol-gel route combined with acetone-aniline in situ water formation (ISWF) method, followed by supercritical fluid drying. The effect of La2O3 on microstructure and thermal stability of alumina aerogels is investigated by SEM, TEM, XRD and N2 adsorption. The results show that the morphology of alumina aerogels changes from sphere like accumulated to notably sheet like stacked with the doping of La2O3. An appropriate amount of La2O3 doping can enhance the specific surface area of alumina aerogels, and the 9 mol% La2O3 doping aerogels has the largest specific surface area. In addition, the alumina crystal growth and phase transition of the aerogels upon heat treatment are effectively inhibited by La2O3 doping, which significantly improves the thermal stability of the aerogels. After heat treatment at 1200℃ for 2h, the phase of 9 mol% La2O3 doped alumina aerogel remains in the θ-Al2O3 while that of undoped one is a-Al2O3, and the specific surface area of 9 mol% La2O3 doped alumina aerogel is 86.5 m2/g which is higher than the undoped one (46 m2/g). |
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R-AC-0001 |
Nanocellulose-based composite aerogel (CSP-AG) |
Nanocellulose-based composite aerogels (CSP-AG) were prepared using carboxylated cellulose nanofibers (CCNF), silane coupling agent (KH560) and polyethylenimine (PEI) as raw materials. By regulating CCNF, KH560 and Different CSP-AGs were prepared by the ratio between PEI. |
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R-AC-0002 |
Amphiphilic Polyvinyl Alcohol Aerogel |
Using polyvinyl alcohol (PVA) as the basic skeleton and maleic acid (MA) as the auxiliary cross-linking agent, an amphiphilic aerogel was synthesized. This aerogel showed excellent peroxidase-like activity. By adjusting maleic acid The dosage exposes a large number of carboxyl groups and ester groups on the surface of the airgel, which can be used as catalytic active sites and substrates for enzymatic reactions, 3,3,5,5-tetramethylbenzidine (TMB), respectively. Binding sites for dopamine and hydrogen peroxide H2O2. This aerogel was used to efficiently catalyze the color reaction of TMB oxidized by H2O2, and a glucose sensing detection method was established. |
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R-AC-0003 |
Integrated Enzyme Aerogel Composite |
Integrated enzyme aerogel composite material is prepared by immobilizing natural enzymes and simulated enzymes in a three-dimensional network structure through amphiphilic aerogel through adsorption method. |
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R-AC-0004 |
Polyurethane (PU) Aerogel |
Polyurethane (PU) Aerogel/Polyurethane aerogel/PU Aerogel is a porous material with thermal insulation properties, sound absorption properties, shock absorption properties, etc. Its thermal conductivity is extremely low and can isolate heat transfer, so it has been widely used in building insulation, refrigerated transportation and other fields. In addition, polyurethane aerogel also has mechanical properties, such as high elasticity, high toughness, etc., which makes it also used in fields such as shock absorption and buffering. Polyurethane aerogels are widely used in the construction field and are mainly used for building insulation and sound insulation. Because polyurethane aerogel has thermal insulation and sound absorption properties, it can improve the thermal insulation effect of buildings and reduce noise pollution. |
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