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Catalog	name	Description	price
R-M-G35	Nitrogen-doped graphene aerogel supported ferrocene polyaniline	Nitrogen-doped graphene aerogel supported ferrocene polyaniline/N-doped GE aerogel supported ferrocene polyaniline from ruixi.Nitrogen-doped graphene aerogel supported ferrocene polyaniline is an advanced functional material with broad application prospects. This material combines the advantages of nitrogen-doped graphene aerogel and ferrocene polyaniline, and achieves performance optimization through precise control of experimental conditions. It is widely used in energy storage, catalysis, sensors and other fields, such as high-performance lithium-ion battery cathode materials, efficient catalyst carriers and high-sensitivity sensors.	price>
R-C-1742	PD166285 CAS:185039-89-8	PD0166285 is a potent Wee1 and Chk1 inhibitor with activity at nanomolar concentrations(IC50=24nM for Wee1 and 72 nM for Myt1).PD0166285 is also a novel G2 checkpoint abrogator.PD0166285 induces apoptosis.	price>
R-M-G36	Iron doped titanium dioxide aerogel	Iron doped titanium dioxide aerogel/Fe doped TiO2 aerogel/Iron doped TiO2 aerogel/Fe doped titanium dioxide aerogel from ruixi. Iron-doped titanium dioxide aerogel is a unique material that combines the properties of titanium dioxide (TiO2) with the incorporation of iron (Fe) ions. This doping process introduces new characteristics and functionalities to the aerogel, extending its potential applications.Titanium dioxide aerogels are known for their high surface area, low density, and photocatalytic properties, which make them suitable for environmental remediation and energy-related applications. The addition of iron dopants can further enhance these properties. Iron doping can modify the electronic structure of titanium dioxide, leading to improved photocatalytic activity, visible light absorption, and charge separation efficiency.These materials hold promise for a wide range of applications, including environmental remediation, energy production, and potentially in other fields where heterogeneous catalysis and light-driven processes are relevant.	price>
R-C-1743	AST 487 CAS:630124-46-8	AST-487(NVP-AST487),a N,N-diphenyl urea,is an ATP competitive inhibitor of Flt3 with ki of 0.12 μM.Besides FLT3,AST487 also inhibits RET,KDR,c-KIT,and c-ABL kinase with IC50 values below 1μM.	price>
R-M-G37	Graphene aerogel composites loaded with calcium hydroxide	Calcium hydroxide-loaded graphene(GE) aerogel composite is a new material that combines the excellent properties of calcium hydroxide and graphene aerogel. Calcium hydroxide, as a common inorganic compound, has a wide range of applications in many industrial fields, especially in the environmental protection field, such as for treating acidic gases and adsorbing VOCs (volatile organic compounds). Graphene aerogel, with its high specific surface area, porous structure and excellent conductivity, provides good support and performance foundation for composite materials. A preparation method and application of a calcium hydroxide-loaded graphene airgel composite material, which belongs to the technical field of graphene airgel and can solve the problems of limited absorption capacity and complex 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 load is obtained. Calcium hydroxide graphene airgel composite material, this composite material can be used for SO.	price>
R-M-G38	Porphyrin covalent organic framework/graphene aerogel composite	Porphyrin covalent organic framework/graphene aerogel composite;PCOF/GA;Porphyrin covalent organic framework/GA;PCOF/graphene aerogel from ruixi. Porphyrin covalent organic framework/graphene aerogel composite material is a new type of functional composite material that combines the advantages of porphyrin covalent organic framework (PCOF) and graphene aerogel (GA). This composite material has shown great application potential in many fields. Since the porphyrin covalent organic framework/graphene airgel composite has a 3D porous structure and exhibits a higher specific surface area, higher conductivity and electrochemical activity for catalytic oxidation, it is coated on the glassy carbon electrode to form The working electrode is used in the Meijian ammonia monoxide electrochemical sensor. The sensor can be used for real-time detection of xenon monoxide released from cells. The sensor shows a lower detection limit and higher selectivity in actual detection, and Its electrochemical performance is stable and its cycle life is long.	price>
R-C-1745	Lotamilast (RVT-501, E6005) CAS:947620-48-6	Lotamilast(RVT-501;E6005)is a selective phosphodiesterase 4(PDE4)inhibitor with an IC50 of 2.8nM.	price>
R-M-G39	Graphite Oxide Aerogel Densely Coated Zinc Cobalt Complex	Graphene(GE) oxide aerogel densely coated zinc cobalt oxide composite combines the advantages of both materials and has excellent electrical properties, chemical stability and mechanical strength. It can be used in batteries, supercapacitors, electrochemical sensors and other fields, showing broad application prospects. This innovative nanomaterial provides new ideas for scientific research and technological applications.	price>
R-C-1746	gw4064 CAS：278779-30-9	GW4064 is a selective,non-steroidal farnesoid X receptor(FXR)agonist(EC50=15nM).	price>
R-M-G40	Dopamine modified graphene aerogel (DA-rGA)	Dopamine-modified graphene aerogel (DA-GA) is a new composite material that combines the biocompatibility and adhesion of dopamine with the excellent physical and chemical properties of graphene aerogel. This material, through the modification of dopamine, not only enhances the stability and mechanical properties of graphene aerogel, but also gives it more functions and application potential. Dopamine, as a bioactive molecule, has excellent adhesion and biocompatibility. By introducing it into graphene aerogel, the surface of graphene aerogel can be effectively modified, thereby improving its stability and dispersion. In addition, the introduction of dopamine can also bring better stability to graphene aerogel. Multiple bioactive groups enhance its ability to interact with other biomolecules, providing more possibilities for its application in the biomedical field.	price>
R-C-1747	Verinurad (RDEA3170) CAS：1352792-74-5	Verinurad(RDEA3170)is a high-affinity inhibitor of the URAT1 transporter with an IC50 of 25 nM for inhibiting transport activity of human URAT1.It inhibits the related URAT1 homologs OAT4 and OAT1 with approximately 200-fold lower affinity compared to URAT1 with IC50 values of 5.9µM and 4.6µM,respectively.	price>
R-M-G41	Calcium oxide doped boron nitride aerogel	Calcium oxide doped boron nitride aerogel/CaO doped boron nitride aerogel/Calcium oxide doped BN aerogel/CaO doped BN aerogel from ruixi. Calcium oxide doped boron nitride aerogel is a composite material that combines the properties of boron nitride with the addition of calcium oxide. Boron nitride is known for its excellent thermal stability, high electrical resistivity, and good mechanical strength, while calcium oxide offers catalytic and alkaline properties.The addition of calcium oxide to boron nitride aerogel introduces catalytic activity, making it potentially useful in various chemical reactions. This composite material is of interest due to its high specific surface area, low density, and enhanced catalytic properties. It has the potential for applications in catalysis, adsorption, and as a support material for various chemical processes.The resulting aerogel may find applications in areas such as environmental remediation, catalysis in chemical industries, and as a high-temperature insulating material due to the combined properties of boron nitride and the catalytic capabilities of calcium oxide.	price>
R-C-1748	AM2099 CAS：1443373-17-8	AM-2099 is a potent and selective inhibitor of voltage-gated sodium channel Nav1.7 with an IC50 of 0.16μM for human Nav1.7.	price>
R-M-G42	Fluorine-doped boron carbon nitride (F-BCN) aerogel	Fluorine-doped boron carbon nitride (F-BCN) aerogel/Fluorine-doped boron carbon nitride aerogel/F-BCN aerogel from ruixi. Fluorine-doped boron carbon nitride (F-BCN) aerogel is a composite material that incorporates boron, carbon, nitrogen, and fluorine. This combination results in a material with a unique set of properties, merging the characteristics of boron carbon nitride with the effects of fluorine doping.F-BCN aerogel exhibits high thermal stability, excellent mechanical strength, good electrical insulation, and strong chemical resistance, making it suitable for applications in high-temperature environments, electrical insulation, and harsh chemical conditions. The fluorine doping extends its utility by potentially altering its surface properties, such as wettability and reactivity.The resulting aerogel is of interest for applications in aerospace, high-temperature insulation, and as a component in advanced electronic devices due to its unique combination of properties, including resistance to high temperatures, chemical stability, and potential alterations in surface properties through fluorine doping.For use in supercapacitor applications.	price>
R-C-1749	Pimodivir (VX-787) CAS：1629869-44-8	Pimodivir(VX-787)is an orally bioavailable inhibitor of influenza A virus polymerases through interaction with the viral PB2 subunit.	price>
R-M-G43	h-BN/N-doped rGO composite aerogel	Hexagonal boron nitride (h-BN)/N-doped reduced graphene oxide (rGO) composite aerogel;h-BN/N-doped reduced graphene oxide composite aerogel;h-BN/N-doped rGO composite aerogel;Hexagonal boron nitride /N-doped rGO composite aerogel from ruixi. Hexagonal boron nitride (h-BN)/nitrogen-doped reduced graphene oxide (rGO) composite aerogel is a material that combines the properties of hexagonal boron nitride and nitrogen-doped reduced graphene oxide. This combination gives the material a unique set of properties that benefit a variety of applications. Hexagonal boron nitride has excellent thermal conductivity, high thermal stability and chemical inertness. Nitrogen-doped reduced graphene oxide, on the other hand, contributes to electrical conductivity and mechanical flexibility. The resulting composite aerogel has high thermal conductivity, good mechanical strength and enhanced electrical properties. This composite aerogel has potential for use in thermal management applications such as heat dissipation in electronic devices. Additionally, its electrical conductivity and mechanical flexibility make it suitable for use in flexible electronics and as components in advanced energy storage devices. Used for electromagnetic wave absorption and heat insulation.	price>
R-C-1750	Amcasertib (BBI503) CAS：1129403-56-0	Amcasertib(BBI503),a first-in-class cancer stemness kinase inhibitor,is claimed to inhibit Nanog and other CSC pathways by targeting kinases with potential anticancer activity.	price>
R-M-G44	Boron doped graphene aerogel (BGA)	Boron doped graphene aerogel (BGA) is a new material with unique properties and wide application prospects. By introducing boron into graphene aerogels, BGA materials not only inherit the high conductivity, high specific surface area and good mechanical properties of graphene aerogels, but also further improve their electrochemical performance, thermal stability and catalytic activity through boron doping. Stable and high performance boron doped graphene aerogels (BGA) were prepared by simple step hydrothermal synthesis using graphene oxide (GO) as carbon source and boric acid as boron source.	price>
R-C-1751	Sarecycline HCl CAS：1035979-44-2	Sarecycline hydrochloride is a narrow-spectrum tetracycline-class antibiotic. Sarecycline hydrochloride possesses anti-inflammatory properties and potent activity against Gram-positive bacteria,including activity against multiple strains of Cutibacterium acnes.Sarecycline hydrochloride interferes with tRNA accommodation and tethers mRNA to the 70S ribosome.	price>
R-M-G45	Three-dimensional porous LiMnPO4/nitrogen-doped graphene aerogel	Three-dimensional porous LiMnPO4/nitrogen-doped graphene aerogel is a new composite material that combines the advantages of LiMnPO4 cathode material and nitrogen-doped graphene aerogel. This material not only inherits the high energy density and long cycle life of LiMnPO4, but also enhances its conductivity and structural stability through the introduction of nitrogen-doped graphene aerogel, thus improving the overall performance.The preparation method of three-dimensional porous graphene aerogel material includes: mixing graphene oxide dispersion and organic amine, hydrothermal reaction to obtain hydrogel; water washing, freezing and drying to obtain three-dimensional porous graphene aerogel material.	price>

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