Catalog |
name |
Description |
price |
R-AC-0031 |
Calcium hydroxide loaded graphene aerogels |
Calcium hydroxide loaded graphene aerogels/Ca(OH)2 loaded graphene aerogels/Calcium hydroxide loaded GO/Ca(OH)2 loaded GO from ruixi. The preparation method and application of graphene airgel composite materials loaded with calcium hydroxide belong to the technical field of graphene airgel and can solve the problems of limited absorption capacity and complicated production process of existing industrial harmful gas treatment and absorption methods. The invention adopts a step-by-step synthesis method. First, the precipitation method is used to synthesize calcium hydroxide particles, and the electrolytic oxidation method is used to synthesize graphene oxide. In the next step, the hydrothermal synthesis method is used to polymerize calcium hydroxide and graphene oxide, and finally the supported hydroxide is obtained. Calcium graphene airgel composite material. This composite material can be used in the field of chemical adsorption removal of acidic industrial harmful gases such as SO, HS, Cl, etc., and can also be used in the field of adsorption of VOCs gases such as benzene. |
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R-AC-0032 |
Aerogels doped with Fe based amorphous alloys |
Aerogels doped with Fe based amorphous alloys/Aerogels doped with iron-based amorphous alloy from ruixi.Aerogels doped with iron-based amorphous alloys represent a novel and promising class of materials with diverse applications. These aerogels, known for their incredibly low density and high porosity, are further enhanced by the incorporation of Fe-based amorphous alloys, which impart unique properties to the material.The doping of aerogels with Fe-based amorphous alloys introduces several advantages. Firstly, amorphous alloys, characterized by their disordered atomic structure, offer exceptional mechanical properties, including high strength, hardness, and elasticity. When integrated into aerogels, these attributes improve the overall structural integrity and resilience of the material.Furthermore, the magnetic properties of Fe-based amorphous alloys can be leveraged within the aerogel matrix, enabling applications in fields such as magnetics, electronics, and sensors. This magnetic functionality can be tailored to specific requirements, opening up opportunities for use in diverse technological and industrial applications. |
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R-AC-0033 |
Polylactic acid-based bone repair composite aerogel |
Polylactic acid-based bone repair composite aerogel/PLA-based bone repair composite aerogel from ruixi.Polylactic acid-based bone repair composite aerogel material is a cutting-edge biomedical material with excellent biocompatibility and bone repair capabilities. This material is based on polylactic acid. Through precise chemical synthesis and physical composite technology, the airgel material is closely combined with it to form a composite material with mechanical properties and biological activity. Its plasticity and processability enable personalized treatment and have broad application prospects, and are expected to bring breakthroughs in the treatment of orthopedic diseases. |
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R-AC-0034 |
Ni(OH)2/N-rGO |
Ni(OH)2/N-rGO;Ni(OH)2/N-reduced graphene oxide from ruixi.One-step hydrothermal method was used to fabricate a series of nickel hydroxide and nitrogen reduced graphene oxide composites (NGs) under different reaction time.The structure and physicochemical properties of the materials were characterized by XRD, FT-IR, Raman, XPS, SEM and N2-BET methods.The results show that the Ni (OH) 2 crystallites in the as-prepared material increased with the increase of reaction time, and the composites had mesoporous characteristics.The results of cyclic volt-ampere, charge-discharge and life test under three-electrode system show that the maximum capacitance of the series materials was 1 280F/g (NG-2) when the reaction time was 2h.The capacitance increased first and then decreased with the increasing reaction time, indicating that the capacitance of the materials would be related to the pore characteristics of the composite, Ni (OH) 2 grain size and the doping N atoms. |
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R-AC-0035 |
Plant polysaccharide aerogel |
Plant polysaccharide aerogel is a lightweight porous material with excellent properties such as high porosity, high specific surface area, low density, and environmental friendliness. This article systematically introduces the preparation method, structural properties and characteristics of plant polysaccharide aerogel materials. The development process and its application research in different fields are summarized. Because of its low thermal conductivity, strong adsorption capacity, controllable drug release, and certain tissue regeneration capabilities, plant polysaccharide aerogels can be used as thermal insulation materials. , adsorption materials, drug delivery materials, tissue regeneration, and wound care materials. As a green and environmentally friendly material, plant polysaccharide aerogel materials will have broader application prospects in different application fields. |
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R-AC-0036 |
Titanium dioxide mesoporous aerogel |
Titanium dioxide mesoporous aerogel/MTN-NH2 aerogel from ruixi.Titanium dioxide mesoporous aerogels represent a fascinating class of materials with a wide array of potential applications due to their unique characteristics. These aerogels are composed predominantly of titanium dioxide (TiO2) and are structured at the mesoscale, meaning they possess a high degree of porosity and an intricate network of pores at the nanometer to micrometer scale.The mesoporous structure of these aerogels gives them an exceptionally large surface area, which is valuable in various applications, including catalysis, gas adsorption, and energy storage. This high surface area allows for enhanced interaction with gases and liquids, making them promising candidates for environmental remediation and energy-related processes.Furthermore, the mesoporous nature of these aerogels provides a large volume of interconnected void spaces, leading to their lightweight nature and high porosity. As a result, they exhibit excellent thermal insulation properties and can be used in thermal barrier coatings, insulating materials, and as components in lightweight composites.In addition to their physical properties, titanium dioxide mesoporous aerogels possess inherent photocatalytic activity due to the presence of TiO2. This property makes them valuable in applications such as water purification, air filtration, and self-cleaning surfaces, where the aerogels can harness solar or artificial light to drive chemical reactions for environmental remediation. |
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R-AC-0037 |
Sulfhydryl functionalized cellulose aerogel |
Sulfhydryl functionalized cellulose aerogel/Mercapto functionalized cellulose aerogel from ruixi.Sulfhydryl functionalized cellulose aerogels are a specialized class of materials with unique properties and a wide range of potential applications. These aerogels are derived from cellulose, a renewable and abundant biopolymer, and are chemically modified to introduce sulfhydryl (–SH) functional groups onto the cellulose structure. This modification imbues the aerogels with distinctive characteristics that make them valuable in various fields.Sulfhydryl functionalized cellulose aerogels represent a versatile class of materials with diverse applications in catalysis, environmental remediation, biomedical research, and materials science. Their unique combination of chemical reactivity, selectivity, and sustainability positions them as valuable platforms for innovation across multiple disciplines. |
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R-AC-0038 |
Resorcinol formaldehyde (RF) aerogel |
Resorcinol formaldehyde (RF) aerogel/Resorcinol formaldehyde aerogel/RF aerogel from ruixi. Resorcinol formaldehyde (RF) aerogel is a new type of energy storage material with large specific surface area, high porosity and good hydrogen storage performance. It is often used as a target material for inertial confinement fusion. |
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R-AC-0039 |
Nitrogen phosphorus co doped carbon aerogel |
Nanocellulose is prepared based on bleached softwood pulp, and inorganic or organic substances containing N and P dual elements are used as doping agents. N and P double-doped porous materials are prepared by using a one-step doping method through ultrasonic mixing, freeze-drying, and high-temperature carbonization. Three-dimensional network, structurally stable carbon aerogels. |
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R-AC-0040 |
Phosphonic acid functionalized polymer/graphene nanobelt composite aerogel |
The phosphonic acid functionalized polymer/graphene nanoribbon composite aerogel is an aerogel with graphene oxide nanoribbons as a matrix and a polymer with a phosphonic acid group as a functional group grafted onto the matrix.As an adsorbent, phosphonic acid functionalized polymer/graphene nanoribbon composite aerogel has a fast adsorption rate for thorium ions in aqueous solution, with an adsorption capacity of 300-380 mg/g. It has good selectivity and can effectively adsorb and recover thorium ions in aqueous solution. After the adsorption of ions, the airgel can be quickly separated and recovered from the solid-liquid system, without polluting the environment. |
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