Catalog |
name |
Description |
price |
R-M-G51 |
Ethylene diamine cross-linked graphene oxide aerogel |
Ethylene diamine cross-linked graphene oxide aerogel/ EDA cross-linked graphene oxide aerogel is a composite material that results from the cross-linking of graphene oxide using ethylene diamine. This process leads to the formation of a three-dimensional, porous, and lightweight structure with high surface area and impressive mechanical strength.The resulting aerogel exhibits properties such as high conductivity, excellent mechanical resilience, and enhanced chemical stability. This combination of attributes makes it suitable for various applications, including in energy storage devices, catalysis, and environmental remediation.Due to its high surface area and electrical conductivity, this aerogel shows promise in energy-related applications such as supercapacitors and batteries. Additionally, its chemical stability and porous nature make it valuable for applications involving adsorption and catalysis, where a large surface area and structural stability are critical for efficient performance. |
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R-M-G52 |
MoS2 hollow sphere/graphene aerogel |
MoS2 hollow sphere/graphene aerogel;MoS2 hollow sphere/GO from ruixi.M0S2 hollow spheres/graphene aerogel is a composite material that combines the advantages of MoS2 hollow spheres and lithene aerogel. As a curved transition metal sulfide, MoS2 hollow spheres have high specific capacity and good cycle stability, while graphene aerogel is known for its high conductivity, high specific surface area and three-dimensional porous structure. . Using graphene oxide (GO) suspension as raw material, gelling, freeze-drying, and then reducing GO to reduced graphene oxide (GO) through heat treatment, a three-dimensional graphene aerogel (3DGA) was prepared using a self-assembly method. , the spatial structure of 3D GA can be controlled by adjusting the concentration of GO suspension, and the surface defect density of 3DGA can be controlled by changing the heat treatment temperature and time. During the synthesis process of 3D GA, MoS(2) porous nano-hollow spheres (MoS(2)- PHS) was grown in situ on the surface of 3DGA framework to prepare 3D MoS (2)/GA composite electrode. |
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R-M-G53 |
ZrO2 nanoparticles and chitosan-doped graphene aerogels |
ZrO2 nanoparticles and chitosan-doped graphene aerogels;ZrO2 nanoparticles and chitosan-doped GO;Zirconia nanoparticles and chitosan-doped graphene aerogels from ruixi.ZrO2 nanoparticles and chitosan-doped graphene aerogel is a new aerogel material that combines the characteristics of ZrO2 nanoparticles, chitosan and graphene. This composite aerogel not only inherits the high conductivity, high specific surface area and excellent mechanical properties of graphene, but also gives the material good thermal and chemical stability by introducing ZrO2 nanoparticles and chitosan. and biocompatibility. As an important ceramic material, ZrO2 nanoparticles have the characteristics of high hardness, high melting point, and good chemical stability. They are widely used in ceramics, electronics, biomedicine and other fields. Chitosan is a natural polymer with good biocompatibility, degradability and film-forming properties. It is often used in the preparation of biomedical materials and environmentally friendly materials.Combining ZrO2 nanoparticles, chitosan and graphene to form an aerogel can give full play to their respective advantages and achieve optimization and improvement of performance. During the preparation process, ZrO2 nanoparticles are first synthesized through a specific method and compounded with chitosan and graphene. By adjusting the process parameters during the composite process, the uniform dispersion and tight combination of ZrO2 nanoparticles, chitosan and graphene in the aerogel can be achieved. |
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R-M-G54 |
Azure C-decorated N-doped graphene aerogel/AC−NGA |
Azure C-decorated N-doped graphene aerogel/AC−NGA/AC-decorated N-doped graphene aerogel/Azure C−NGA from ruixi.AC-NGA has excellent charge storage performance under universal pH conditions (gravitational capacitance up to 591Fg-1 at a current density of 1.0A g-1 and an ultra-high voltage window of 2.3V). The capacitance contribution to charge storage is 91.7%, which exceeds or is comparable to the best known pseudocapacitors. In addition, the symmetric AC-NGA//AC-NGA devices achieve high energy and power density (15.2-60.2 Wh kg-1, 650-23,000 W kg-1) and have excellent performance in acidic, neutral and alkaline aqueous solutions. Excellent cycling stability. This work provides a cost-effective strategy to combine redox dye molecules with heteroatom-doped graphene aerogels to construct green, efficient, pH-universal aqueous supercapacitors. |
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R-M-G55 |
S, N co-doped rGO/fluorine-free Ti3C2Tx aerogels |
S, N co-doped rGO/fluorine-free Ti3C2Tx aerogels;S, N co-doped reduced graphene oxide/fluorine-free Ti3C2Tx aerogels are composite materials that integrate sulfur and nitrogen co-doped reduced graphene oxide (rGO) with fluorine-free titanium carbide (Ti3C2Tx) aerogels. This combination results in a material with unique properties, as the co-doping of sulfur and nitrogen in the rGO enhances its electrical properties and the fluorine-free Ti3C2Tx provides mechanical integrity and stability.These aerogels exhibit a blend of high electrical conductivity, mechanical strength, and flexibility. Additionally, the S, N co-doping of the rGO enhances its surface interaction with various substances, potentially making it suitable for applications in environmental remediation, catalysis, and energy storage systems. The resulting composite aerogels are of interest for a variety of applications, including but not limited to, flexible electronics, energy storage devices (such as supercapacitors), and as a component in catalytic systems due to their diverse range of properties, including electrical conductivity, mechanical strength, and enhanced surface reactivity. |
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R-M-G56 |
Cubic In2O3 modified graphene aerogel |
Cubic In2O3 modified graphene aerogel/Cubic In2O3 modified GO is a new composite material that combines the good properties of cubic In2O3 nanoparticles and graphene aerogel. This composite material not only inherits the high conductivity, high specific surface area and good mechanical properties of graphene aerogel, but also gives the material unique catalytic activity, electrical properties and stability by introducing cubic In2O3 nanoparticles . Cubic In203 is an important semiconductor material with good catalytic activity and photoelectric properties. The cubic structure gives the material a higher specific surface area and more active sites, thereby improving the efficiency of the catalytic reaction. At the same time, the wide bandgap characteristics of In2O3 make it have broad application prospects in the field of optoelectronics. |
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R-M-G57 |
Block Ta2O5-TiO2 composite aerogel |
Block Ta2O5-TiO2 composite aerogel/Block Ta2O5-Titanium Dioxide composite aerogel/Block tantalic oxide-TiO2 composite aerogel/Block tantalic oxide-Titanium Dioxide composite aerogel from ruixi.Ta2O5-TiO2 composite aerogel was successfully prepared by sol-gel method and supercritical drying using tantalum ethanol and butyl titanate as raw materials and ethanol as solvent. Field emission scanning electron microscope (SEM) and transmission electron microscope (TEM) were used , electron energy spectroscopy (EDS) and specific surface area adsorption instrument (BET) in scanning electron microscope mode were used to characterize it. The results show that the aerogel is composed of Ti and Ta oxyhydroxide colloids with particle sizes in the nm range. It is a porous network structure material with low density and high specific surface area formed by the accumulation of particles. The pore size distribution is mainly concentrated in 5~15 nm, the specific surface area is 492.9m2/g, and the density is about 90 mg/cm3. |
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R-M-G58 |
RF (resorcinol formaldehyde)/SiO2 composite aerogel |
Resorcinol formaldehyde/SiO2 composite aerogel;RF/SiO2 composite aerogel;RF /silica composite aerogel;Resorcinol formaldehyde/Silica composite aerogel from ruixi.RF (resorcinol-formaldehyde)/SiO2 composite aerogel has a lower density. Due to the presence of air pores inside the composite material, the density of the composite material is lower than that of traditional solid materials, which is beneficial to reducing the quality burden during its application. RF (resorcinol-formaldehyde)/SiO2 composite aerogel also has good thermal stability. Resorcinol-formaldehyde polymer has a high thermal decomposition temperature, allowing the composite material to maintain good performance in high temperature environments. RF (resorcinol-formaldehyde)/SiO2 composite aerogel also has adsorption properties. Due to the presence of nanoscale pores and active sites within it, the composite material has strong adsorption capacity for many organic molecules and inorganic ions. |
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R-M-G59 |
Composite Materials of Three Dimensional Nitrogen Doped Graphene and Pyridoxy Cobalt Phthalocyanine |
Composite materials of three-dimensional nitrogen-doped graphene and pyridoxy cobalt phthalocyanine (CoTPPc/NGA) represent a material blend involving nitrogen-doped graphene and pyridoxy cobalt phthalocyanine. These composites are noteworthy for their unique combination of properties resulting from the synergistic effects of both components.The three-dimensional nitrogen-doped graphene provides excellent electrical conductivity, superior mechanical strength, and a large surface area. Meanwhile, pyridoxy cobalt phthalocyanine introduces magnetic properties and the potential for catalytic applications.The resulting composite material exhibits a combination of electrical conductivity, mechanical strength, magnetic properties, and catalytic potential. It shows promise for use in various advanced technological applications such as in electromagnetic devices, catalysis, and as a component in energy storage systems.As an efficient oxygen reduction reaction catalyst. |
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R-M-G60 |
Pd doped carbon aerogel |
Palladium (Pd) doped carbon aerogel is a composite material that involves the inclusion of palladium within a carbon aerogel matrix. This material presents a combination of the properties of carbon aerogels with the catalytic and functional characteristics of palladium.The incorporation of Pd within the carbon aerogel structure provides it with enhanced catalytic activity, particularly in reactions involving hydrogen, such as hydrogenation and dehydrogenation processes. Additionally, the composite material retains the advantageous properties of carbon aerogels, including high surface area, low density, and excellent electrical conductivity.The resulting Pd doped carbon aerogel demonstrates the potential to be used in various applications such as catalysis, sensors, and energy storage devices. Its unique combination of properties makes it particularly well-suited for applications where a high surface area, excellent electrical conductivity, and enhanced catalytic activity are required. |
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