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Catalog	name	Description	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>
R-C-1752	RSL3 CAS：1219810-16-8	RSL3((1S,3R)-RSL3)is an inhibitor of glutathione peroxidase 4 (GPX4)(ferroptosis activator),reduces the expression of GPX4 protein,and induces ferroptotic death of head and neck cancer cell.RSL3 increases the expression of p62 and Nrf2 and inactivates Keap1 in HN3-rslR cells.	price>
R-M-G46	ZrO2 doped thermal insulation material silica aerogel	Zirconium dioxide doped thermal insulation material silica aerogel/zirconia doped thermal insulation material silica aerogel/zirconium dioxide doped thermal insulation material SiO2 aerogel/ZrO2 doped thermal insulation material SiO2 aerogel/zirconia doped thermal insulation material SiO2 aerogel from ruixi.ZrO2-doped silica aerogels represent a composite material that incorporates the properties of silica aerogel with the addition of zirconia (ZrO2). Silica aerogels are renowned for their exceptional insulating properties, lightweight nature, and high surface area. The incorporation of zirconia serves to further enhance these characteristics by adding improved thermal stability and mechanical strength.This composite material is well-suited for applications in aerospace, industrial insulation, and as a component in high-temperature insulation systems, owing to the combination of lightweight, excellent thermal insulating properties, and enhanced mechanical stability.	price>
R-C-1753	SCH23390 CAS：125941-87-9	SCH-23390 hydrochloride(R-(+)-SCH-23390 hydrochloride)is a potent and selective dopamine D1-like receptor antagonist with Kis of 0.2nM and 0.3nM for the D1 and D5 receptor,respectively.SCH-23390 hydrochloride is a potent and high efficacy human 5-HT2C receptor agonist with a Ki of 9.3 nM.SCH-23390 hydrochloride also binds with high affinity to the 5-HT2 and 5-HT1C receptors.SCH-23390 hydrochloride inhibits G protein-coupled inwardly rectifying potassium(GIRK)channels with an IC50 of 268nM.	price>
R-M-G47	C60 doped SiO2 aerogel	C60-doped SiO2 aerogel/C60-doped Silica aerogel is a composite material in which fullerene C60 is introduced into the SiO2 aerogel matrix. SiO2 aerogel is a material with a highly porous structure and low density, while C60 is a carbon variant with a spherical structure and electronic properties.Doping iron-based amorphous alloys into aerogels can create a composite material. Iron-based amorphous alloys are usually amorphous alloys composed of iron, nickel, chromium and other metal elements. They have the characteristics of high hardness, magnetism and chemical stability. Doping it into aerogels can impart physical and chemical properties to the aerogels.	price>
R-C-1754	MS049 CAS：2095432-59-8	MS049 is a potent,selective,and cell-active dual inhibitor of PRMT4 and PRMT6 with IC50s of 34 nM and 43nM,respectively.MS049 reduces levels of Med12me2a and H3R2me2a in HEK293 cells.MS049 is not toxic and does not affect the growth of HEK293 cells.	price>
R-M-G48	Ce3+ doped TiO2 aerogel	Ce3+ doped Ti02 aerogel/Ce3+ doped Titanium Dioxide aerogel is a material with special properties. Its preparation process involves the sol-gel method. By introducing Ce3+ ions into Ti02 aerogel, the material properties can be controlled. This doping technology can change the optical, electrical and catalytic properties of TiO2, allowing it to exhibit superior performance in certain specific applications.In the preparation process of Ce3+ doped Ti02 aerogels, it is first necessary to select appropriate titanium sources and dopants. The titanium source usually uses compounds such as butyl titanate (TBT), and Ce3+ ions are introduced as dopants. Next, through the sol-gel method, under specific reaction conditions, the titanium source and dopant are hydrolyzed and polycondensed to form a gel network. After the gel is formed, it needs to go through aging, drying and other steps to finally obtain the Ce3+ TiO2 aerogel. Ce3+ T02 aerosol has many unique properties. Due to the introduction of Ce3+ ions, the light absorption capacity of the aerosol is enhanced, making it of great application value in the field of photocatalysis. In addition. (e3+ doping can also affect the lattice structure of Ti02, thereby changing its electronic structure and energy band structure, improving the separation efficiency of photogenerated electrons and holes, and further improving its photocatalytic performance.	price>
R-C-1755	AZD5582 CAS：1258392-53-8	AZD5582 is an antagonist of the inhibitor of apoptosis proteins(IAPs),which binds to the BIR3 domains cIAP1,cIAP2,and XIAP with IC50s of 15,21,and 15 nM, respectively.	price>
R-M-G49	Zirconia/silica aerogel	Zirconia/silica aerogel;ZrO2/SiO2 aerogel;Zirconia/SiO2 aerogel;ZrO2/silica aerogel is a composite material that combines the properties of zirconia and silica aerogels. This composite aerogel not only inherits the high melting point, high hardness, good chemical stability and corrosion resistance of zirconia, but also has the high specific surface area, high porosity, good thermal stability and corrosion resistance of silica aerogel. Low thermal conductivity and other advantages. Zirconia/silica aerogels have application prospects in many fields. In the field of thermal insulation materials, its low thermal conductivity and high thermal stability make it an ideal thermal insulation material. In the field of catalysts, its high specific surface area and chemical stability make it a catalyst carrier. In addition, it also shows potential application value in batteries, adsorbents, sensors and other fields.	price>
R-C-1756	LCI699 CAS：928134-65-0	Osilodrostat(LCI699)is a potent inhibitor of human 11β-hydroxylase and aldosterone synthase with IC50 values of 2.5 and 0.7nM, respectively.	price>
R-M-G50	MnFe2O4-rGO aerogel	MnFe2O4-rG0 aerogel/MnFe2O4-reduced graphene oxide aerogel is a composite material that combines MnFe2O4 spinel ferrite and reduced graphene oxide (rG0) aerogel. This material combines the high magnetic properties of Mnfe2O4 and the excellent properties of rGO aerogel. Electrical conductivity, large specific surface area and porous structure have shown unique applications in many fields. CS/MnFe(2)O(4) aerogels with through-hole structures were prepared through a liquid ammonia-assisted molding process. First, the hydrothermal method was used to prepare Mnfe(2)O(4) nanoparticles, and then liquid ammonia was used to construct the temperature Gradient induces the directional growth of ice to form CS/Mnfe(2)O(4) hydrogel. Finally, freeze-drying is used to obtain CS/MnFe(2)O(4) aerogel with a radial through-hole structure. In order to improve air condensation To improve the stability of the gel, dialdehyde was used as a cross-linking agent to chemically cross-link the CS/MnFe(2)O(4) aerogel.	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.	price>
R-C-1758	Toxoflavin CAS:84-82-2	Toxoflavin(Xanthothricin)is an antagonist of transcription factor 4(TCF4)/β-catenin complex,also acts as an inhibitor of KDM4A,with antitumor activity. Antibiotic properties.	price>
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.	price>

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