Dispersant Suppliers USA
Find where to buy products from suppliers in the USA, including: distributors, industrial manufacturers in America, bulk supplies and wholesalers of raw ingredients & finished goods.
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Product | Description | |
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Carbon Nanotube Dispersion / CNTs Ester Dispersion Quick inquiry Where to buy Suppliers range | Carbon Nanotube Dispersion / CNTs Ester Dispersion. Grades: >95%. Product ID: ACMA00020321. | |
Carbon Nanotube Dispersion / CNTs Water Dispersion Quick inquiry Where to buy Suppliers range | Carbon Nanotube Dispersion / CNTs Water Dispersion. Grades: >95%. Product ID: ACMA00020322. | |
Carboxylic Single-walled carbon nanotubes (SWCNTS-COOH) dispersion, water dispersion,0.15wt% Quick inquiry Where to buy Suppliers range | Carboxylic Single-walled carbon nanotubes (SWCNTS-COOH) dispersion, water dispersion,0.15wt%. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Multi-Walled Carbon Nanotubes Dispersion, Butylacetate Dispersion,2- 3 wt % Quick inquiry Where to buy Suppliers range | Multi-Walled Carbon Nanotubes Dispersion, Butylacetate Dispersion,2- 3 wt %. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Multi-Walled Carbon Nanotubes Dispersion, isopropanol dispersion,2- 3wt % Quick inquiry Where to buy Suppliers range | Multi-Walled Carbon Nanotubes Dispersion, isopropanol dispersion,2- 3wt %. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Silica Dispersion (SiO2, Aqueous Dispersion, Amorphous) Quick inquiry Where to buy Suppliers range | Nano silica dispersion is a composite material composed of solid nanoparticles dispersed in a heat transfer liquid (such as water, ethylene glycol, propylene glycol, etc.). The products are colorless and transparent, easily soluble in oily systems, prevent the secondary agglomeration of nano-silica, have good stability, and also solve the problems of users in the dispersion problem, saving processing costs for customers. These products are used in coatings, rubber, leather, plastic, printing, textile and other industries. Uses: ·Coatings can prevent caking and sagging, and can also provide emulsification, suspension, thickening, thixotropic agents, etc. ·Applications in adhesives and sealants. ·Mainly provide the following functions: thickening, thixotropy and fluidity control. Reinforcing agent in rubber ·Applied in plastics, it can improve product quality and facilitate molding and processing. ·In the application of medicine and pesticide, it can be used for various pharmaceutical fillers, which play the role of thickening, suspending and carrier. ·For special catalyst carrier. ·Used as agricultural seed treatment agent, it can shorten the maturity period and increase the yield. Group: Colloidal Silica. CAS No. 7631-86-9. Molecular Weight: 60.09 g/mol. InChIKey: 2230 °C (lit.). Boiling Point: 1610 °C. Flash Point: 99.9 %. Purity: 2.6 g/cm3. | |
Silicon Dioxide Dispersion (SiO2, Aqueous Dispersion, Amorphous) Quick inquiry Where to buy Suppliers range | Nano silica dispersion is a composite material composed of solid nanoparticles dispersed in a heat transfer liquid (such as water, ethylene glycol, propylene glycol, etc.). The products are colorless and transparent, easily soluble in oily systems, prevent the secondary agglomeration of nano-silica, have good stability, and also solve the problems of users in the dispersion problem, saving processing costs for customers. These products are used in coatings, rubber, leather, plastic, printing, textile and other industries. Uses: ·Coatings can prevent caking and sagging, and can also provide emulsification, suspension, thickening, thixotropic agents, etc. ·Applications in adhesives and sealants. ·Mainly provide the following functions: thickening, thixotropy and fluidity control. Reinforcing agent in rubber ·Applied in plastics, it can improve product quality and facilitate molding and processing. ·In the application of medicine and pesticide, it can be used for various pharmaceutical fillers, which play the role of thickening, suspending and carrier. ·For special catalyst carrier. ·Used as agricultural seed treatment agent, it can shorten the maturity period and increase the yield. Group: Colloidal Silica. CAS No. 7631-86-9. Molecular Weight: 60.09 g/mol. InChIKey: 2230 °C (lit.). Boiling Point: 1610 °C. Flash Point: 99.9 %. Purity: 2.6 g/cm3. | |
1 wt% Short Length Single-walled Carbon Nanotubes Dispersion Quick inquiry Where to buy Suppliers range | 1 wt% Short Length Single-walled Carbon Nanotubes Dispersion. Grades: > 95 wt%. Product ID: ACMA00020308. | |
1 wt% Single Walled Carbon Nanotubes Dispersion Quick inquiry Where to buy Suppliers range | 1 wt% Single Walled Carbon Nanotubes Dispersion. Grades: > 95 wt%. Product ID: ACMA00020309. | |
3-Aminopropyl Functionalized Silica Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | 3-Aminopropyl Functionalized Silica Nanoparticle Dispersion. Alternative Names: Functionalized silicon dioxide nanoparticles, 3-Aminopropyl(3-oxobutanoic acid) functionalized silica nanoparticles, Aminopropyl silica, Aminopropyl-silica, Carboxylic acid-functionalized silica colloid, MFCD07784531, 2.5 % (w/v) in DMF, 3 % (w/v) in ethanol, Aminopropyl Silanised - Silica nanoparticles, CAS 14808-60-7 (quartz), Aminosilane, Silylamine, Silicyl amide, CAS 13598-78-2 (Silanamine), Silicyl amide, Silane, amino-. Product ID: ACMA00000290. Molecular formula: H2NSi. Mole weight: 44.108. IUPAC Name: iminosilanylium. Appearance: Colorless to light blue liquid dispersion. Boiling Point: 75-78 °C. Density: 0.836 g/mL (25 °C). SMILES: N=[SiH+]. InChI: InChI=1S/H2NSi/c1-2/h1-2H/q+1. InChIKey: FBAHIYBQEWUQOR-UHFFFAOYSA-N. | |
Acrylic resin Aqueous Dispersion Quick inquiry Where to buy Suppliers range | Acrylic resin Aqueous Dispersion can be used in the formulation of mortars based on hydraulic binders to which it gives good mechanical resistance. | |
Ag-Cu Alloy Nanoparticles Dispersion (Silver-Copper, Diameter: 50nm, Purity: 99.99%) Quick inquiry Where to buy Suppliers range | This product is a highly dispersed nano-silver-copper bimetallic alloy hydrosol. It uses polymer material as a stabilizer and can be diluted for different antibacterial purposes. The particle size of the colloidal nano silver copper is between 1-7 nm, the average particle size is 3-5 nm, and the antibacterial concentration is less than 1 ppm. Can be diluted with purified water to any concentration of liquid (distilled water or deionized water above 15M ohms). It can also be added to aqueous or water-soluble liquids to achieve the purpose of antibacterial and sterilization. Nano-silver-copper bimetallic alloy is a new type of antibacterial material. Compared with traditional nano-silver material, its antibacterial concentration can be reduced by 3-5 times, and the amount of precious metal silver can also be reduced. Nano-silver copper has better antibacterial properties for fungi. Antibacterial and bactericidal ability is one of the materials to replace nano silver in the future. Uses: ·Long-lasting disinfection and sterilization spray additive ·Antibacterial and bactericidal coating ·Other antibacterial material additives. Group: Metal Colloids. CAS No. 11144-43-7. Molecular Weight: 171.41 g/mol. Flash Point: 99.9 %. | |
Alkali Metal Dispersion Quick inquiry Where to buy Suppliers range | Alkali Metal Dispersions. Main Uses: Pcb dechlorination, production of organic intermediates, production of trimellitic anhydride. suspensions of alkali metal. KMR Manufacturers of Alkali Metal Dispersions (Sodium and Lithium). | KMR Dispersions, LLC |
Alumina Dispersion (Al2O3, Alpha, 99.99 %, 15-30nm) Quick inquiry Where to buy Suppliers range | Alumina dispersion is easily soluble in organic solvents such as non-polar diethyl ether, ethanol mineral acid, etc. Their small particle size can be used to make artificial gemstones, analytical reagents, nano-scale catalysts and carriers, and can greatly improve their luminous intensity when used in luminescent materials. It is to improve the compactness, smoothness, and thermal fatigue of ceramics. Uses: ·Electronic substrate coating ·Precision polishing ·Resin filler ·Energy conversion ·Sensor ·Can be used as a dispersant for common materials. Group: Metal Oxide Colloids. CAS No. 1344-28-1. Molecular Weight: 101.96 g/mol. InChIKey: 2980 °C. Boiling Point: 2050 °C. Melting Point: 2980 °C. Flash Point: 99.9 %. Purity: 1.06 g/mL at 25°C. | |
Alumina Dispersion (Al2O3, Alpha, 99.99 %, 50-80nm) Quick inquiry Where to buy Suppliers range | Alumina dispersion is easily soluble in organic solvents such as non-polar diethyl ether, ethanol mineral acid, etc. Their small particle size can be used to make artificial gemstones, analytical reagents, nano-scale catalysts and carriers, and can greatly improve their luminous intensity when used in luminescent materials. It is to improve the compactness, smoothness, and thermal fatigue of ceramics. Uses: ·Electronic substrate coating ·Precision polishing ·Resin filler ·Energy conversion ·Sensor ·Can be used as a dispersant for common materials. Group: Metal Oxide Colloids. CAS No. 1344-28-1. Molecular Weight: 101.96 g/mol. InChIKey: 2980 °C. Boiling Point: 2050 °C. Melting Point: 2980 °C. Flash Point: 99.9 %. Purity: 1.06 g/mL at 25°C. | |
Alumina nanowire dispersion Quick inquiry Where to buy Suppliers range | Alumina nanowire dispersion. Product ID: ACMA00018237. Density: 4nm in water. | |
Aluminium Oxide Dispersion (Al2O3, Gamma, 99.99 %, 20-30nm) Quick inquiry Where to buy Suppliers range | Alumina dispersion is easily soluble in organic solvents such as non-polar diethyl ether, ethanol mineral acid, etc. Their small particle size can be used to make artificial gemstones, analytical reagents, nano-scale catalysts and carriers, and can greatly improve their luminous intensity when used in luminescent materials. It is to improve the compactness, smoothness, and thermal fatigue of ceramics. Uses: ·Electronic substrate coating ·Precision polishing ·Resin filler ·Energy conversion ·Sensor ·Can be used as a dispersant for common materials. Group: Metal Oxide Colloids. CAS No. 1344-28-1. Molecular Weight: 101.96 g/mol. InChIKey: 2980 °C. Boiling Point: 2050 °C. Melting Point: 2980 °C. Flash Point: 99.9 %. Purity: 1.06 g/mL at 25°C. | |
Aluminum Cerium Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Aluminum Cerium Oxide Nanoparticle Dispersion. Product ID: ACMA00019747. Mole weight: 215.1. IUPAC Name: aluminum; cerium(3+); oxygen(2-). Appearance: Liquid. EC Number: 234-597-6. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: [O-2].[O-2].[O-2].[Al+3].[Ce+3]. InChI: InChI=1S/Al.Ce.3O/q2*+3;3*-2. InChIKey: NTWUDWUVKKRQRK-UHFFFAOYSA-N. | |
Aluminum-doped Zinc Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Aluminum-doped Zinc Oxide Nanoparticle Dispersion. Product ID: ACMA00019752. Mole weight: 183.34. IUPAC Name: dialuminum; zinc; oxygen(2-). Appearance: Solid in various forms. SMILES: [O-2].[O-2].[O-2].[O-2].[Al+3].[Al+3].[Zn+2]. InChI: InChI=1S/2Al.4O.Zn/q2*+3;4*-2;+2. InChIKey: DSRXRJYQGIXPCQ-UHFFFAOYSA-N. | |
Aluminum Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Aluminum Nanoparticle Dispersion. Product ID: ACMA00019748. Mole weight: 26.98. IUPAC Name: aluminum. Appearance: Grey. EC Number: 231-072-3. Boiling Point: 2467 °C. Melting Point: 660.37 °C. SMILES: [Al]. InChI: InChI=1S/Al. InChIKey: XAGFODPZIPBFFR-UHFFFAOYSA-N. | |
Aluminum Nitride Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Liquid dispersion. Group: Nanoparticle Dispersions. Alternative Names: Azanylidynealumane; Nitridoalumane; Nitriloalumane. CAS No. 24304-00-5. Molecular formula: AlN. Mole weight: 40.99. EC Number: 246-140-8. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: 2.9 to 3.3 g/cm3. Safty Description: 26-37/39. Hazard statements: H314-H335. | |
Aluminum Oxide Dispersion (Al2O3, Gamma, 99.99 %, 1-10nm) Quick inquiry Where to buy Suppliers range | Alumina dispersion is easily soluble in organic solvents such as non-polar diethyl ether, ethanol mineral acid, etc. Their small particle size can be used to make artificial gemstones, analytical reagents, nano-scale catalysts and carriers, and can greatly improve their luminous intensity when used in luminescent materials. It is to improve the compactness, smoothness, and thermal fatigue of ceramics. Uses: ·Electronic substrate coating ·Precision polishing ·Resin filler ·Energy conversion ·Sensor ·Can be used as a dispersant for common materials. Group: Metal Oxide Colloids. CAS No. 1344-28-1. Molecular Weight: 101.96 g/mol. InChIKey: 2980 °C. Boiling Point: 2050 °C. Melting Point: 2980 °C. Flash Point: 99.9 %. Purity: 1.06 g/mL at 25°C. | |
Aluminum Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Aluminum Oxide Nanoparticle Dispersion. Product ID: ACMA00019750. Mole weight: 101.96. IUPAC Name: Oxo(oxoalumanyloxy) alumane. Appearance: White liquid. EC Number: 215-691-6. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: O=[Al]O[Al]=O. InChI: InChI=1S/2Al.3O. InChIKey: TWNQGVIAIRXVLR-UHFFFAOYSA-N. | |
Aluminum Silicate Dispersion (Al2SiO5, Purity: 99.9%, Diameter: <100nm) Quick inquiry Where to buy Suppliers range | Due to its small particle size, narrow particle size distribution, and no precipitation and stratification, nano-aluminosilicate has good suspension stability, and can improve the dispersion and fineness of the coating, so that the appearance, gloss, hardness and dispersibility of the coating are improved. There are good results. The use of nano aluminum silicate in the coating can make the coating produce nano-effects such as "zero convection", which greatly reduces the heat transfer ability of the material. It can be used as a good thermal insulation material to make up for the existence of traditional wall thermal insulation coatings. High water absorption, easy aging, large volume shrinkage, easy to cause low strength in the later stage of the product and hollow cracking to reduce the performance of thermal insulation coatings. Uses: ·Efficient catalyst ·Activated sintering additive ·Surface conductive coating treatment of metal and scrap metal ·Conductive film layer, polishing paste ·High-grade metallic pigments, composite materials, aerospace, chemical materials, etc. Group: Metal Oxide Colloids. CAS No. 12141-46-7. Molecular Weight: 282.21 g/mol. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 425nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 525nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 540nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 560nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 580nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 600nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 620nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 645nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Amine Quantum Dots, Dispersion, λex = 665nm Quick inquiry Where to buy Suppliers range | Amines are nitrogen-containing organic compounds that can be regarded as hydrocarbon derivatives of ammonia. Nitrogen atoms in amine molecules have unshared electron pairs, so amines generally have strong electron donating ability, and are easy to form hydrogen bonds with water, and have good water solubility. Many amine compounds are important substances for sustaining life activities, so the quantum dots prepared based on amines have good biocompatibility. Nitrogen atoms can be used as doping elements or amino groups with strong electron donating ability can be used as fluorescent auxiliary units to improve the optical properties of quantum dots. At the same time, the amino groups on the surface of QDs are beneficial to their specificity to target analytes when they are used as probes, and can also enhance the water solubility of QDs and improve the surface modification and functionalization capabilities of QDs. Uses: ·Live Cell Imaging ·Protein tracking ·DNA analysis ·Disease diagnosis. Group: Colloidal Quantum Dots. Flash Point: 99.9 %. | |
Antimony Dispersion Quick inquiry Where to buy Suppliers range | The colloidal solution material has a Tyndall phenomenon and can be directly used as a monolayer material. Various specifications can be customized. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Other Liquid Products. Flash Point: 99.9999% (6N). | |
Antimony Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Antimony Nanoparticle Dispersion. Product ID: ACMA00019753. Mole weight: 121.75. Appearance: solid. EC Number: 231-146-5. Boiling Point: 1950°C. Melting Point: 630.74°C. SMILES: [Sb]. InChI: InChI=1S/Sb. InChIKey: WATWJIUSRGPENY-UHFFFAOYSA-N. | |
Antimony Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | white solid. Group: Phosphors - Phosphor Materials. Alternative Names: Antimony(III) Oxide, Antimony Trioxide, Dioxodistiboxane, Stibine oxide, triphenyl, Dioxodistiboxane, Antimony sesquioxide, Antimony White, Stibine oxide, triphenyl-, hydrate, Diantimony trioxide, Flowers of antimony, Triphenylantimony oxide, Oxo-oxostibanyloxystibane, Di(phenyl)stiborylbenzene, Triphenylstibine oxide, Triphenylantimony oxide. CAS No. 1309-64-4. Molecular Weight: 291.52. Molecular Formula: O3Sb2. Boiling Point: 1425 °C (sublimes). Melting Point: 656 °C. Density: 5.2 g/cm³. | |
Antimony Tin Oxide Dispersion (ATO, SnO2:Sb2O3 = 10:90, 20-80nm) Quick inquiry Where to buy Suppliers range | ATO (Antimony Tin Oxide) is a highly insoluble, thermally stable source of aluminum, recognized worldwide as an excellent material with a range of unique properties. They exhibit good conductivity in antistatic applications and have good infrared absorption. It has a strong absorption effect on near-infrared light, and can maintain transparency in the visible light range in the film. Antimony tin oxide is one of the most commonly used transparent conductive oxides because it possesses two key properties, including optical transparency and electrical conductivity. These properties are important for photovoltaic devices including solar cells and flat panel displays. Uses: ·Photoelectric display devices and flat panel display devices, such as LED, LCD, ECD, etc. ·Antistatic materials in coatings, chemical fibers, polymer films and other industries. ·Insulation in buildings or in glass and hot mirrors. ·For use in areas that need to be shielded from electromagnetic waves. These areas include the computer room and radar. Group: Metal Oxide Colloids. CAS No. 128221-48-7. Molecular Weight: 442.23 g/cm3. Flash Point: 99.9 %. | |
Antimony Tin Oxide Dispersion (ATO, SnO2:Sb2O3 = 90:10, 20 wt%, 20-80nm) Quick inquiry Where to buy Suppliers range | ATO (Antimony Tin Oxide) is a highly insoluble, thermally stable source of aluminum, recognized worldwide as an excellent material with a range of unique properties. They exhibit good conductivity in antistatic applications and have good infrared absorption. It has a strong absorption effect on near-infrared light, and can maintain transparency in the visible light range in the film. Antimony tin oxide is one of the most commonly used transparent conductive oxides because it possesses two key properties, including optical transparency and electrical conductivity. These properties are important for photovoltaic devices including solar cells and flat panel displays. Uses: ·Photoelectric display devices and flat panel display devices, such as LED, LCD, ECD, etc. ·Antistatic materials in coatings, chemical fibers, polymer films and other industries. ·Insulation in buildings or in glass and hot mirrors. ·For use in areas that need to be shielded from electromagnetic waves. These areas include the computer room and radar. Group: Metal Oxide Colloids. CAS No. 128221-48-7. Molecular Weight: 442.23 g/cm3. Flash Point: 99.9 %. | |
Antimony Tin Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Antimony Tin Oxide Nanoparticle Dispersion. Product ID: ACMA00019755. Mole weight: 444.23. Appearance: Liquid. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: O=[Sn]=O.O=[Sb]O[Sb]=O. InChI: InChI=1S/5O.2Sb.Sn. InChIKey: DCEPJBOKQZTMOG-UHFFFAOYSA-N. | |
Antimony Tin Oxide Nanoparticles / ATO Nanopowder Ethanol Dispersion Quick inquiry Where to buy Suppliers range | Antimony Tin Oxide Nanoparticles / ATO Nanopowder Ethanol Dispersion. Grades: >99.9%. Product ID: ACMA00019972. Mole weight: 225.9994 g/mol. Density: 6.8 g/cm³. | |
Aqueous dispersant for multi-walled carbon nanotubes Quick inquiry Where to buy Suppliers range | Aqueous dispersant for multi-walled carbon nanotubes. Group: Carbon Nanomaterials. | |
Arsenene Dispersion Quick inquiry Where to buy Suppliers range | The colloidal solution material has a Tyndall phenomenon and can be directly used as a monolayer material. Various specifications can be customized. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Other Liquid Products. Flash Point: 99.9999% (6N). | |
Arsenic Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Arsenic Oxide Nanoparticle Dispersion. Product ID: ACMA00019756. Mole weight: 197.84. IUPAC Name: Arsenic(3+); oxygen(2-). Appearance: White Powder. EC Number: 215-481-4. Boiling Point: 465° C(869° F). Melting Point: 312.2° C(594° F). Density: 3.74 g/cm³. SMILES: O1[As]3O[As]2O[As](O[As]1O2)O3. InChI: InChI=1S/As4O6/c5-1-6-3-8-2(5)9-4(7-1)10-3. InChIKey: KTTMEOWBIWLMSE-UHFFFAOYSA-N. | |
ATO Dispersion (Antimony Tin Oxide, SnO2:Sb2O3 = 20:80, 99.9%, Diameter: 20-80nm) Quick inquiry Where to buy Suppliers range | ATO (Antimony Tin Oxide) is a highly insoluble, thermally stable source of aluminum, recognized worldwide as an excellent material with a range of unique properties. They exhibit good conductivity in antistatic applications and have good infrared absorption. It has a strong absorption effect on near-infrared light, and can maintain transparency in the visible light range in the film. Antimony tin oxide is one of the most commonly used transparent conductive oxides because it possesses two key properties, including optical transparency and electrical conductivity. These properties are important for photovoltaic devices including solar cells and flat panel displays. Uses: ·Photoelectric display devices and flat panel display devices, such as LED, LCD, ECD, etc. ·Antistatic materials in coatings, chemical fibers, polymer films and other industries. ·Insulation in buildings or in glass and hot mirrors. ·For use in areas that need to be shielded from electromagnetic waves. These areas include the computer room and radar. Group: Metal Oxide Colloids. CAS No. 128221-48-7. Molecular Weight: 442.23 g/cm3. Flash Point: 99.9 %. | |
ATO Nanoparticles Dispersion (Antimony Tin Oxide, SnO2:Sb2O3 = 90:10, 50-80nm) Quick inquiry Where to buy Suppliers range | ATO (Antimony Tin Oxide) is a highly insoluble, thermally stable source of aluminum, recognized worldwide as an excellent material with a range of unique properties. They exhibit good conductivity in antistatic applications and have good infrared absorption. It has a strong absorption effect on near-infrared light, and can maintain transparency in the visible light range in the film. Antimony tin oxide is one of the most commonly used transparent conductive oxides because it possesses two key properties, including optical transparency and electrical conductivity. These properties are important for photovoltaic devices including solar cells and flat panel displays. Uses: ·Photoelectric display devices and flat panel display devices, such as LED, LCD, ECD, etc. ·Antistatic materials in coatings, chemical fibers, polymer films and other industries. ·Insulation in buildings or in glass and hot mirrors. ·For use in areas that need to be shielded from electromagnetic waves. These areas include the computer room and radar. Group: Metal Oxide Colloids. CAS No. 128221-48-7. Molecular Weight: 442.23 g/cm3. Flash Point: 99.9 %. | |
Barium Iron Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | solid. Group: Nanoparticle Dispersions. Alternative Names: Barium ferrite, Barium dodecairon nonadecaoxide, Barium Iron Oxide nanopowder suspension, aqueous Barium Iron Oxide nanoparticle solution, Barium Iron Oxide nanofluid. CAS No. 12047-11-9. Molecular formula: BaFe12O19. Mole weight: 1111.06. EC Number: 234-974-5. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. | |
Barium Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Barium Oxide Nanoparticle Dispersion. Product ID: ACMA00019761. Mole weight: 153.9. IUPAC Name: Oxobarium. Appearance: Liquid dispersion. EC Number: 215-127-9. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: [Ba+2].[O-2]. InChI: InChI=1S/Ba.O/q+2;-2. InChIKey: CSSYLTMKCUORDA-UHFFFAOYSA-N. | |
Beryllium Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Beryllium Nanoparticle Dispersion. Product ID: ACMA00019762. Mole weight: 9.01. Appearance: solid. EC Number: 231-150-7. Boiling Point: 2970 °C. Melting Point: 1277 °C. SMILES: [BeH2]. InChI: InChI=1S/Be. InChIKey: ATBAMAFKBVZNFJ-UHFFFAOYSA-N. | |
Beryllium Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Beryllium Oxide Nanoparticle Dispersion. Product ID: ACMA00019763. Mole weight: 25.01. IUPAC Name: oxoberyllium. Appearance: Liquid. EC Number: 215-133-1. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: 2.9 g/cm³. SMILES: [Be]=O. InChI: InChI=1S/Be.O. InChIKey: LTPBRCUWZOMYOC-UHFFFAOYSA-N. | |
Bismuth Cobalt Zinc Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Bismuth Cobalt Zinc Oxide Nanoparticle Dispersion. Alternative Names: Bi2O3 - CoO - ZnO, Bismuth Cobalt Zinc Oxide nanopowder suspension, aqueous Bismuth Cobalt Zinc Oxide nanoparticle solution, Bismuth Cobalt Zinc Oxide nanofluid. Product ID: ACMA00000318. Molecular formula: Bi2O5CuZn. Mole weight: 626.89. IUPAC Name: oxocobalt; oxo(oxobismuthanyloxy)bismuthane; oxozinc. Appearance: Liquid. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: O=[Co].O=[Zn].O=[Bi]O[Bi]=O. InChI: InChI=1S/2Bi.Co.5O.Zn. InChIKey: MCBNHXYFBDSCBI-UHFFFAOYSA-N. | |
Bismuthene Dispersion Quick inquiry Where to buy Suppliers range | The colloidal solution of single/small-layer bismuth material has the Tyndall phenomenon and can be directly used as a single-layer bismuth material. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Other Liquid Products. Flash Point: >99.998%. | |
Bismuth Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Bismuth Nanoparticle Dispersion. Product ID: ACMA00019765. Mole weight: 208.98. IUPAC Name: Bismuth. Appearance: Gray to black powder. EC Number: 231-177-4. Boiling Point: 1420-1560 °C. Melting Point: 251 °C. SMILES: [Bi]. InChI: InChI=1S/Bi. InChIKey: JCXGWMGPZLAOME-UHFFFAOYSA-N. | |
Bismuth Oxide Dispersion (Bi2O3, Diameter: <1um, Purity: 99%) Quick inquiry Where to buy Suppliers range | Nanometer bismuth trioxide Bi2O3 is an important functional material, mainly exists in α, β, γ and δ crystal forms. Different crystal forms have different applications. The application of bismuth oxide is very wide, it is not only a good catalyst for organic synthesis, ceramic colorant, plastic flame retardant, medicinal astringent, glass additive, high refractive glass and nuclear engineering glass manufacturing and nuclear reactor fuel, but also the electronic industry. An important doped powder material. Uses: ·Electronic Materials ·Ferrite Magnetic Materials ·Catalysts in the petrochemical industry ·Color picture tube shadow mask coating material ·Glass, ceramic colorants, glazes, etc.; ·Green and environmentally friendly flame retardants, replacing toxic antimony flame retardants. Group: Metal Oxide Colloids. CAS No. 1304-76-3. Molecular Weight: 465.96 g/mol. InChIKey: 1890 °C. Boiling Point: 825 °C. Melting Point: 1890 °C. Flash Point: 99.9 %. Purity: 8.9 g/cm3. | |
Bismuth Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Bismuth Oxide Nanoparticle Dispersion. Product ID: ACMA00019766. Mole weight: 465.96. IUPAC Name: Oxo(oxobismuthanyloxy)bismuthane. Appearance: Liquid. EC Number: 215-134-7. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: O=[Bi]O[Bi]=O. InChI: InChI=1S/2Bi.3O. InChIKey: WMWLMWRWZQELOS-UHFFFAOYSA-N. | |
Blue Phosphorene Dispersion Quick inquiry Where to buy Suppliers range | The colloidal solution material has a Tyndall phenomenon and can be directly used as a monolayer material. Various specifications can be customized. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Other Liquid Products. Flash Point: 99.9999% (6N). | |
BN Nanosheet Dispersion Quick inquiry Where to buy Suppliers range | Alfa Chemistry manufactures boron nitride nanosheet dispersion. All specifications can be customized. Please request a quote above to receive pricing information based on your specifications. Uses: Applications requiring high thermal conductivity and dielectric strength such as electronic assemblies; other uses include serving as a dry lubricant. Group: h-BN. CAS No. 10043-11-5. Flash Point: (5N) 99.999%. | |
Boron Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Boron Nanoparticle Dispersion. Group: Inorganic Nanomaterials. Alternative Names: Boron nanopowder suspension, aqueous Boron nanoparticle solution, Boron nanofluid. CAS No. 7440-42-8. Molecular Weight: B. Molecular Formula: 10.81. SMILES: B. Purity: 99%, 99.9%, 99.99%, 99.999%. | |
Boron Nanoparticles Dispersion (B, Diameter: 80-100nm, Purity: 99.9%) Quick inquiry Where to buy Suppliers range | Nano-element boron, the appearance is dark brown liquid, its melting point is 2400?, and its boiling point is about 2700?. The specific gravity is ≥1.3 (the specific gravity of amorphous boron is 1.3, the specific gravity of shaped boron is 2.4), the Mohs hardness is 9, and it can react with most metals to form borides at high temperatures. Uses: ·Protective materials for the atomic energy industry ·Catalyst for porcelain industry and organic synthesis, high-energy fuel for rocket propulsion. ·Raw materials for the manufacture of borane and various borides ·For the smelting of special alloy steel ·Semiconductors. Group: Metal Colloids. CAS No. 7440-42-8. Molecular Weight: 13.83480 g/mol. InChIKey: 3650 °C. Boiling Point: 2180 °C. Flash Point: 99.9 %. Purity: 2.34 g/mL at 25 °C (lit.). | |
Boron Nitride dispersion Quick inquiry Where to buy Suppliers range | Boron Nitride dispersion. Group: Graphene-like Materials Series. Grades: Purity in Dry Phase: >99%. CAS No. 10043-11-5. | |
Boron Nitride Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | DryPowder; DryPowder, OtherSolid; DryPowder, WetSolid, OtherSolid; OtherSolid. Group: Inorganic Nanomaterials. Alternative Names: Boron Nitride nanopowder suspension, aqueous Boron Nitride nanoparticle solution, Boron Nitride nanofluid. CAS No. 10043-11-5. IUPAC Name: azanylidyneborane. Molecular Weight: BN;BN. Molecular Formula: 24.82g/mol. SMILES: B#N. Density: 1.9 to 2.1 g/cm³. | |
Boron Nitride Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | solid. Uses: DryPowder; DryPowder, OtherSolid; DryPowder, WetSolid, OtherSolid; OtherSolid. Group: Carbon Nanomaterials. Alternative Names: Boron Nitride nanopowder suspension, aqueous Boron Nitride nanoparticle solution, Boron Nitride nanofluid. CAS No. 10043-11-5. IUPAC Name: azanylidyneborane. Molecular Weight: 24.82g/mol. Molecular Formula: BN;BN. SMILES: B#N. InChI: InChI=1S/BN/c1-2. InChIKey: PZNSFCLAULLKQX-UHFFFAOYSA-N. Melting Point: Varies by solvent. Density: 1.9 to 2.1 g/cm³. | |
Boron Nitride Nanoparticles Dispersion (BN, Diameter: 80-100nm, Purity: 99.99%) Quick inquiry Where to buy Suppliers range | Nano-boron nitride was prepared by a variable current laser ion beam gas phase method. Our products have high purity, small particle size, large specific surface area, high surface activity, and the crystal structure has a layered structure similar to graphite, which is loose, lubricated, and easy to absorb moisture. There are many methods for preparing boron nitride nanoparticles, and there are many kinds of boron source raw materials. However, hexagonal nitrogen is prepared by chemical vapor deposition (CVD) using borate esters as boron sources, ammonia and nitrogen as nitrogen sources. Boronide (h-BN) nanospheres are the most likely synthetic route to achieve production scale. Uses: ·Solid lubricant ·Electronic packaging material with good thermal conductivity ·Efficient catalyst support material. Group: Metal Colloids. CAS No. 10043-11-5. Molecular Weight: 24.82 g/mol. Boiling Point: 2700 °C. Flash Point: 99.9 %. Purity: 2.29 g/cm3. | |
Boron Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Boron Oxide Nanoparticle Dispersion. Product ID: ACMA00019768. Mole weight: 69.62. IUPAC Name: oxo(oxoboranyloxy)borane. Appearance: Liquid dispersion. EC Number: 215-125-8. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: O=BOB=O. InChI: InChI=1S/B2O3/c3-1-5-2-4. InChIKey: JKWMSGQKBLHBQQ-BHBJOZJASA-N. | |
Boron Oxide Nanoparticles Dispersion (B2O3, Purity: 99.9%, Diameter: 80-100nm) Quick inquiry Where to buy Suppliers range | Boron trioxide, also known as "boric anhydride", is soluble in hot water and only slightly heated in cold water. Forms orthoboric acid in water. Volatile metaboric acid is formed in hot water vapor. In the molten state, various metal oxides can be dissolved to obtain colored boron glass. Alkali metals, magnesium and aluminum can reduce it to elemental boron. To obtain high-purity boron oxide, high-purity boric acid must be prepared first. The preparation methods of high-purity boric acid mainly include recrystallization method, ion exchange method, complex method, esterification-hydrolysis method, membrane separation method, electrochemical method, adsorption method law, etc. Uses: ·Flux for silicate decomposition ·Dopants and liquid sealants for semiconductor materials ·Acidic catalysts in organic synthesis ·Refractory Additives for Paints. Group: Metal Oxide Colloids. CAS No. 1303-86-2. Molecular Weight: 69.62 g/mol. InChIKey: 1860 °C. Boiling Point: 450 °C(lit.). Melting Point: 1860 °C. Flash Point: 99.9 %. Purity: 2.46 g/mL at 25°C (lit.). | |
Butvar Dispersion Quick inquiry Where to buy Suppliers range | Butvar Dispersion. Group: Polymers. | |
Cadmium Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Cadmium Oxide Nanoparticle Dispersion. Product ID: ACMA00019769. Mole weight: 128.4. IUPAC Name: Oxocadmium. Appearance: Liquid dispersion. EC Number: 215-146-2. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: [Cd]=O. InChI: InChI=1S/Cd.O. InChIKey: CXKCTMHTOKXKQT-UHFFFAOYSA-N. | |
Calcium Oxide Dispersion (CaO, Purity: 99.9%, Diameter: 80nm) Quick inquiry Where to buy Suppliers range | Nano-calcium oxide has the characteristics of non-toxicity and good bacteriostatic efficiency against common beverage microorganisms, and has good potential to be used as beverage preservatives. The sol-gel method is used to prepare nano-calcium oxide with a particle size of 15-150 nm. The preparation method is simple, and nano-calcium oxide with different particle sizes can be prepared by controlling the reaction conditions and calcination conditions, which is suitable for industrial production. Group: Metal Oxide Colloids. CAS No. 1305-78-8. Molecular Weight: 56.08 g/mol. InChIKey: 2850 °C (lit.). Boiling Point: 2570 °C. Melting Point: 2850 °C. Flash Point: 99.9 %. Purity: 3.3 g/mL at 25°C (lit.). | |
Calcium Oxide Nanoparticle Dispersion Quick inquiry Where to buy Suppliers range | Calcium Oxide Nanoparticle Dispersion. Product ID: ACMA00019770. Mole weight: 56.08. IUPAC Name: Oxocalcium. Appearance: Liquid dispersion. EC Number: 215-138-9. Boiling Point: Varies by solvent. Melting Point: Varies by solvent. Density: Varies by solvent. SMILES: [Ca+2].[O-2]. InChI: InChI=1S/Ca.O/q+2;-2. InChIKey: BRPQOXSCLDDYGP-UHFFFAOYSA-N. | |
Carbon dispersant Quick inquiry Where to buy Suppliers range | Carbon dispersant. Group: Polymers. | |
Carbon Nano Fiber Dispersion Organic Solvent Quick inquiry Where to buy Suppliers range | Carbon Nano Fiber Dispersion Organic Solvent. Grades: >95%. Product ID: ACMA00020090. |