Alfa Chemistry Materials 7 - Products
Specialized in material chemistry, Alfa Chemistry Materials is now an ISO 9001:2015 Certified Supplier offering extensive materials for various applications, including Metals and Materials, 3D Printing Materials, Biomaterials.
Product | Description | |
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WS2 powder 3.8μm Quick inquiry Where to buy | WS2 powder 3.8μm. Group: Graphene-like Materials Series. CAS No. 12138-09-9. | |
WS2 powder 5.0μm Quick inquiry Where to buy | WS2 powder 5.0μm. Group: Graphene-like Materials Series. CAS No. 12138-09-9. | |
WTe2 Crystal Quick inquiry Where to buy | WTe2 Crystal. Group: Graphene-like Materials Series. CAS No. 12067-76-4. Purity: 99.995%. | |
Xanthan from Xanthomonas campestris Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. IUPAC Name: 2-(2, 4-diaminophenoxy)ethanol; dihydrochloride. Molecular Weight: 241.11 g/mol. Molecular Formula: C8H14Cl2N2O2. SMILES: C1=CC(=C(C=C1N)N)OCCO.Cl.Cl. InChI: VXYWXJXCQSDNHX-UHFFFAOYSA-N. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan from Xanthomonas campestris, viscosity : 25-70 mPa.s Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, 80 mesh Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, 85% Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Flash Point: 85 %. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, 98% Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Flash Point: 98 %. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Bioreagent Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Food grade Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Food grade, 200 mesh Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Food grade, Viscosity : 25-70 mPa.s, 1 % in H2O(25 °C), 200 mesh Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Food grade, Viscosity : 25-70 mPa.s, 1 % in H2O(25 °C), 80 mesh Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan gum from Xanthomonas campestris Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. IUPAC Name: 2-(2, 4-diaminophenoxy)ethanol; dihydrochloride. Molecular Weight: 241.11 g/mol. Molecular Formula: C8H14Cl2N2O2. SMILES: C1=CC(=C(C=C1N)N)OCCO.Cl.Cl. InChI: VXYWXJXCQSDNHX-UHFFFAOYSA-N. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Petroleum grade Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Pharmaceutical grade Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, Transparent Quick inquiry Where to buy | Xanthan gum is a proven gel former and stabiliser for hot and cold-stirred emulsions. With other emulsifiers it is a skin-friendly thickener for shampoos and shower gels. It is indispensable when it comes to creating stable surfactant emulsions with a high water content. Xanthan gum is very soluble in both cold and warm water. For ease of use, it is recommended to first dissolve xanthan gum in glycerine or alcohol and then add it to the formulations. In this way, the gelling agent can be processed without lumps. Uses: Shampoo Shower gel Body care Face care. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: at alcoholin glycerol. | |
Xanthan Gum, USP grade Quick inquiry Where to buy | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
YAG Dispersion (Y3Al5O12, Purity: 99.5+%, Diameter: 30-50nm) Quick inquiry Where to buy | Yttrium alumina (YAG) belongs to a group of specially developed materials that have been used in quantum electronics devices and laser technology since the mid-20th century. Yttrium alumina is a Y3Al2(AlO4)3 oxide with the cubic crystal structure of natural garnet. Therefore, YAG is only known as a synthetic garnet. YAG is harder and denser than natural garnet, and has high dispersion and refractive index. Uses: ·Reinforced nickel-based superalloys ·Used as fiber laser material ·Reinforced oxide matrix ceramic composites ·Used as thermal insulation refractory. Group: Metal Oxide Colloids. CAS No. 12005-21-9. Molecular Weight: 593.62 g/mol. Flash Point: 99.9 %. Purity: 4.56 g/mL at 25 °C (lit.). | |
Yellow Brass C26000 Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of metals and alloys. We supply high quality yellow brass C26000 in the shapes of wire, tube, strip, sheet, bar and shapes, etc. For more information, please feel free to contact us. Group: Alloy. | |
Ytterbium Fluoride (YbF3) Quick inquiry Where to buy | Ytterbium Fluoride (YbF3). Group: Semiconductor Materials. Alternative Names: High Purity Ytterbium Fluoride (YbF3); 99.9% Ytterbium Fluoride (YbF3); 99.99% Ytterbium Fluoride (YbF3); ; high purity ytterbium(III) fluoride; high purity ytterbium trifluoride; high purity ytterbium fluoride. CAS No. 1345-07-9. Purity: 3N-4N. | |
Ytterbium III Carbonate Hydrate Quick inquiry Where to buy | Ytterbium III Carbonate Hydrate. Group: Other Nanomaterials. CAS No. 38245-39-5. Molecular Weight: Yb2(CO3)3.xH2O. Molecular Formula: 357.84g/mol. Purity: 99.9%. | |
Ytterbium Oxide Quick inquiry Where to buy | Ytterbium Oxide, also called Ytterbia, is being applied to numerous fiber amplifier and fiber optic technologies, HHigh purity Ytterbium Oxide are widely applied as a doping agent for garnet crystals in lasers a important colourant in glasses and porcelain enamel glazes. As Ytterbium Oxide has a significantly hHigher emissivity in the infrared range than Magnesium Oxide, a hHigher radiant intensity is obtained with Ytterbium-based payloads in comparison to those commonly based on Magnesium/Teflon/Viton (MTV). Uses: also called Ytterbia, is being applied to numerous fiber amplifier and fiber optic technologies, High purity Ytterbium Oxide are widely applied as a doping agent for garnet crystals in lasers a important colourant in glasses and porcelain enamel glazes. Group: Other Nanomaterials. CAS No. 1314-37-0. IUPAC Name: oxygen(2-);ytterbium(3+). Molecular Weight: Yb2O3. Molecular Formula: 394g/mol. SMILES: [O-2].[O-2].[O-2].[Yb+3].[Yb+3]. | |
Ytterbium Oxide (Yb2O3) Quick inquiry Where to buy | Ytterbium Oxide (Yb2O3). Group: Semiconductor Materials. Alternative Names: High Purity Ytterbium Oxide (Yb2O3); 99.9% Ytterbium Oxide (Yb2O3); 99.99% Ytterbium Oxide (Yb2O3); ; high purity ytterbium(III) oxide; high purity Ytterbia; high purity diytterbium trioxide; high purity ytterbium sesquioxide; high purity ytterbium o. CAS No. 7790-80-9. Purity: 3N-4N. | |
Yttrium Aluminium Oxide Dispersion (Y3Al5O12, Purity: 99.9%, Diameter: <100nm) Quick inquiry Where to buy | Yttrium alumina (YAG) belongs to a group of specially developed materials that have been used in quantum electronics devices and laser technology since the mid-20th century. Yttrium alumina is a Y3Al2(AlO4)3 oxide with the cubic crystal structure of natural garnet. Therefore, YAG is only known as a synthetic garnet. YAG is harder and denser than natural garnet, and has high dispersion and refractive index. Uses: ·Reinforced nickel-based superalloys ·Used as fiber laser material ·Reinforced oxide matrix ceramic composites ·Used as thermal insulation refractory. Group: Metal Oxide Colloids. CAS No. 12005-21-9. Molecular Weight: 593.62 g/mol. Flash Point: 99.9 %. Purity: 4.56 g/mL at 25 °C (lit.). | |
Yttrium aluminum borate Quick inquiry Where to buy | powder, -200 mesh. Group: Phosphors - Phosphor Materials. CAS No. 13813-76-8. Molecular Weight: YAl3(BO3)4. Purity: 99.9% trace metals basis. | |
Yttrium-Based Alloys Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of yttrium-based alloys. We supply high-quality yttrium-based alloys including yttrium-aluminum (Y-Al) alloys, yttrium-nickel (Y-Ni) alloys, yttrium-iron (Y-Fe) alloys, yttrium-zirconium-palladium (Y-Zr) alloys. For more information, please feel free to contact us. Group: Alloy. | |
Yttrium borate Quick inquiry Where to buy | powder, -200 mesh, 99.9% trace rare earth metals basis. Group: Phosphors - Phosphor Materials. CAS No. 14060-30-1. Molecular Weight: YBO3. Purity: 99.9% trace rare earth metals basis. | |
Yttrium Fluoride Nanopowder Quick inquiry Where to buy | Yttrium Fluoride Nanopowder. Group: Other Nanomaterials. CAS No. 13709-49-4. Molecular Weight: YF3. Molecular Formula: 145.90g/mol. Purity: 99.9%. Density: 4.01g/cm³. | |
Yttrium(III) oxide Quick inquiry Where to buy | Yttrium(III) oxide. Group: Phosphors - Phosphor Materials; Nanoparticles: Oxides, Nitrides, and Other Ceramics. CAS No. 1314-36-9. Molecular Weight: Y2O3. Molecular Formula: 225.81. | |
Yttrium(III) oxide (99.999%-Y) (REO) PURATREM Quick inquiry Where to buy | Yttrium(III) oxide (99.999%-Y) (REO) PURATREM. Group: Host Materials. CAS No. 1314-36-9. Molecular Weight: Y2O3. Molecular Formula: 226. Purity: 99.9%|99.99%|99.999%|. | |
Zaleplon-D4 solution Quick inquiry Where to buy | 100 μg/mL in methanol, ampule of 1 mL, certified reference material. Group: Certified Reference Materials (CRMs). CAS No. 1781887-91-9. Molecular Formula: 309.36. | |
ZE41A Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of metals and alloys. Magnesium alloy ZE41A we can provide is available in castings. For more information, please feel free to contact us. Group: Alloy. | |
ZERON® 100 Stainless Steel Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of metals and alloys. We supply high quality ZERON® 100 stainless steel in the forms of flanges, plate, concentric reducers, pipe, fittings, round bar, sheet, welding wire, etc. For more information, please feel free to contact us. Group: Alloy. | |
Zinc 1,4,8,11,15,18,22,25-octabutoxy-29H,31H-phthalocyanine Quick inquiry Where to buy | Zinc 1,4,8,11,15,18,22,25-octabutoxy-29H,31H-phthalocyanine. Group: Photonic and Optical Materials. CAS No. 107227-89-4. Molecular Formula: 1154.76. | |
Zinc 2,3,9,10,16,17,23,24-octakis(octyloxy)-29H,31H-phthalocyanine Quick inquiry Where to buy | Dye content 95 %. Group: Photonic and Optical Materials. CAS No. 261504-18-1. Molecular Formula: 1603.61. | |
Zinc 2,9,16,23-tetra-tert-butyl-29H,31H-phthalocyanine Quick inquiry Where to buy | Dye content ~96 %. Group: Photonic and Optical Materials. CAS No. 39001-65-5. Molecular Formula: 802.34. | |
Zinc 5,10,15,20-tetra(4-pyridyl)-21H,23H-porphine Quick inquiry Where to buy | Dye content 90 %. Group: Photonic and Optical Materials. CAS No. 31183-11-6. Molecular Formula: 682.06. | |
Zinc and Zinc-based Alloys Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of high-quality zinc and zinc-based alloys including zinc-aluminum alloys, zinc-aluminum-copper-magnesium alloys, zinc-copper alloys, zinc-nickel alloys at a competitive price. For more information, please feel free to contact us. Group: Alloy. | |
Zinc Bromide Powder Quick inquiry Where to buy | Zinc Bromide Powder. Group: Other Nanomaterials. CAS No. 7699-45-8. Molecular Weight: ZnBr2. Molecular Formula: 225.19 g/mol. Purity: 99.999%. Density: 4.20 g/cm³. | |
Zinc Cadmium Sulfide Powder Quick inquiry Where to buy | Zinc Cadmium Sulfide Powder. Group: Other Nanomaterials. CAS No. 11129-14-9. Molecular Weight: CdS2Zn. Molecular Formula: 241.914g/mol. Purity: 99%. Density: 4.0g/cm³. | |
Zinc Ferrite Nano Slurry (ZnFe2O4, Purity: 99.9%, Diameter: 80-100nm) Quick inquiry Where to buy | Zinc ferrite is a soft magnetic material with excellent performance, a catalyst for the oxidative dehydrogenation of butene, and a semiconductor catalyst with high photocatalytic activity and sensitivity to visible light. Zinc ferrite nanocrystalline particles are transparent inorganic pigments with excellent performance. Uses: ·Treatment of industrial wastewater ·Desulfurization material ·High Performance Absorber ·Anti-corrosion coatings and flame retardants. Group: Metal Oxide Colloids. CAS No. 12063-19-3. Molecular Weight: 241.08 g/mol. Flash Point: 99.9 %. Purity: 5.47 g/cm3. | |
Zinc Fluoride (ZnF2) Quick inquiry Where to buy | Zinc Fluoride (ZnF2). Group: Semiconductor Materials. Alternative Names: Zincfluoride (8ci), Zinc Difluoride, Zinc Difluoride (znf2). CAS No. 12065-11-1. Purity: 99%-99.99%. | |
Zinc(II) tetranitrophthalocyanine Quick inquiry Where to buy | Zinc(II) tetranitrophthalocyanine. Group: Photonic and Optical Materials. CAS No. 100043-01-4. Molecular Formula: 757.90. | |
Zinc Iodide Powder Quick inquiry Where to buy | Zinc Iodide Powder. Group: Other Nanomaterials. CAS No. 10139-47-6. Molecular Weight: ZnI2. Molecular Formula: 319.18g/mol. Purity: 99.99%. Density: 4.47 g/cm³. | |
Zinc MOF Quick inquiry Where to buy | Zinc MOF. Group: Other Nanomaterials. CAS No. 59061-53-9. Molecular Weight: C8H10O4Zn. Molecular Formula: 227.585 g/mol. Purity: 99%. Density: 0.35 g/cm³. | |
Zinc Molybdate Powder Quick inquiry Where to buy | Zinc Molybdate Powder. Group: Other Nanomaterials. CAS No. 13767-32-3. Molecular Weight: ZnMoO4. Molecular Formula: 225.35 g/ mol. Purity: 99%. Density: 4.3 g/ cm³. | |
Zinc monoantimonide Quick inquiry Where to buy | -80 mesh, 99.9% trace metals basis. Group: Thermoelectric Materials. CAS No. 12039-35-9. Molecular Weight: ZnSb. Purity: 99.9% trace metals basis. | |
Zinc oxide Quick inquiry Where to buy | Zinc oxide. Group: UV blockers; Materials for Hydrogen Storage; Nanoparticles: Oxides, Nitrides, and Other Ceramics. CAS No. 1314-13-2. Molecular Weight: ZnO. Molecular Formula: 81.39. | |
Zinc Oxide Quick inquiry Where to buy | Zinc Oxide. Uses: XRF monitor glasses. Group: Process Materials, Geological, Cement & Soils; XRF Monitor Glasses. CAS No. 1314-13-2. Molecular Weight: ZnO. Molecular Formula: 81.41. SMILES: O=[Zn]. | |
Zinc Oxide (ZnO) Quick inquiry Where to buy | Zinc Oxide (ZnO). Group: Semiconductor Materials. Alternative Names: High Purity Zinc Oxide (ZnO); 99.99% Zinc Oxide (ZnO); 99.999% Zinc Oxide (ZnO); ; high purity zinc oxide; high purity zinc(II) oxide. CAS No. 13573-08-5. Purity: 4N-5N. | |
Zinc Selenide (ZnSe) Quick inquiry Where to buy | Zinc Selenide (ZnSe). Group: Semiconductor Materials. Alternative Names: High Purity Zinc Selenide (ZnSe); 99.9% Zinc Selenide (ZnSe); 99.99% Zinc Selenide (ZnSe); ; high purity zinc selenide; high purity zinc(II) selenide. CAS No. 12025-32-0. Purity: 3N-4N. | |
Zinc Stearate Dispersion Wood Coating (C36H70O4Zn, Purity: 99%) Quick inquiry Where to buy | Zinc stearate has fatty odor, non-toxic, greasy, flammable, insoluble in water, soluble in hot ethanol, turpentine, benzene and other organic solvents. In case of strong acid, it is decomposed into stearic acid and corresponding zinc salt. Zinc stearate is mainly composed of natural fatty acids and zinc. Although it is not only an important additive in the plastics industry, it is also considered a substance with high sustainability potential. Uses: ·As a stabilizer and lubricant in polyvinyl chloride, polyethylene and polystyrene ·Lubricant, release agent, anti-sticking agent in rubber ·Paints, coatings, varnishes and other fields. Group: Metal Oxide Colloids. CAS No. 557-05-1. Molecular Weight: 632.33 g/mol. InChIKey: 359.4 °C at 760 mmHg. Boiling Point: 118-128 °C. Melting Point: 276 °C. Flash Point: 99.9 %. Purity: 1.095 g/mL at 25°C (lit.). | |
Zinc sulfide (99.9%-Zn) Quick inquiry Where to buy | Zinc sulfide (99.9%-Zn). Group: Host Materials. CAS No. 1314-98-3. Molecular Weight: ZnS. Molecular Formula: 97. Purity: (99.9%-Zn). | |
Zinc Sulfide Dispersion (ZnS, Purity: 99.9%, Diameter: 40-60um) Quick inquiry Where to buy | Zinc sulfide, white to off-white or light yellow powder, darkens upon exposure. Stable in dry air, easy to oxidize when placed in humid air for a long time or containing moisture. Soluble in dilute inorganic acid, soluble in alkali, insoluble in water. Uses: ·Analytical reagents ·Phosphor ·Photoconductor material ·Manufacture of dyes, coatings, pigments, glass, curing oils ·Various filters and laser window coatings. Group: Metal Colloids. CAS No. 1314-98-3. Molecular Weight: 97.46 g/mol. Flash Point: 99.9 %. Purity: 4.1 g/mL at 25 °C (lit.). | |
Zinc sulfide (fused granules) Quick inquiry Where to buy | Zinc sulfide (fused granules). Group: Thin Film Solar Cell Materials. Alternative Names: Titanium tetrachloride, Titanic chloride. CAS No. 1314-98-3. Molecular Weight: ZnS. Molecular Formula: 97. Purity: 99.99%-Zn. | |
Zinc Sulfide (ZnS) Quick inquiry Where to buy | Zinc Sulfide (ZnS). Group: Semiconductor Materials. Alternative Names: High Purity Zinc Sulfide (ZnS); 99.9% Zinc Sulfide (ZnS); 99.99% Zinc Sulfide (ZnS); ; high purity; high purity zinc(II) sulphide; high purity wurzite zinc sulfide; high purity zinc sulphide; high purity zinc(II) sulfide. CAS No. 1310-53-8. Purity: 3N-4N. | |
Zinc telluride (99.99%-Zn) PURATREM Quick inquiry Where to buy | Zinc telluride (99.99%-Zn) PURATREM. Group: Host Materials. CAS No. 1315-11-3. Molecular Weight: ZnTe. Molecular Formula: 193. Purity: (99.99%-Zn). | |
Zinc (Zn) Quick inquiry Where to buy | Zinc (Zn). Group: Semiconductor Materials. Alternative Names: High Purity Zinc (Zn); 99.9% Zinc (Zn); 99.99% Zinc (Zn); 99.999% Zinc (Zn); 99.9999% Zinc (Zn). CAS No. 12025-39-7. Purity: 3N-6N. | |
Zirconia, Cerium Stabilized (CeO2 + ZrO2) Powder Quick inquiry Where to buy | Zirconia, Cerium Stabilized (CeO2 + ZrO2) Powder. Group: Other Nanomaterials. Alternative Names: Cerium Stabilized Zirconia; Ce-PSZ. CAS No. 1308-38-9. Purity: Zr(Hf)O2: 89.5%; CeO2: 10%. | |
Zirconium and Zirconium-based Alloys Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of high-quality zirconium and zirconium-based alloys including zirconium-aluminum alloys and zirconium-vanadium alloys at a competitive price. For more information, please feel free to contact us. Group: Alloy. | |
Zirconium Diboride (ZrB2) Quick inquiry Where to buy | Zirconium Diboride (ZrB2). Group: Semiconductor Materials. Alternative Names: High Purity Zirconium Diboride (ZrB2); 99.9% Zirconium Diboride (ZrB2); 99.99% Zirconium Diboride (ZrB2); ;; high purity zirconium diboride; high purity zirconium boride. CAS No. 12024-22-5. Purity: 2N-3N. | |
Zirconium Disulfide (ZrS2) Quick inquiry Where to buy | Zirconium Disulfide (ZrS2). Group: Semiconductor Materials. Alternative Names: Zirconium Sulfide. CAS No. 13450-91-4. Purity: 99.9%. | |
Zirconium Fluoride (ZrF4) Quick inquiry Where to buy | Zirconium Fluoride (ZrF4). Group: Semiconductor Materials. Alternative Names: Zirconium Tetrafluoride. CAS No. 7783-51-9. Purity: 99%-99.99%. | |
Zirconium(IV) oxide-scandia stabilized Quick inquiry Where to buy | contains 6 mol % scandia as stabilizer. Group: Solid Oxide Fuel Cell Materials. CAS No. 151575-30-3. Molecular Weight: (ZrO2)0.94(Sc2O3)0.06. Purity: 99% trace metals basis (purity excludes ~2% HfO2). | |
Zirconium Nitride Nanoparticles Dispersion (ZrN, Purity: 99.9%, Diameter: 80-100nm) Quick inquiry Where to buy | Nano zirconium nitride is prepared by the variable current laser ion beam gas phase method, and the powder has high purity, small particle size, large specific surface area and high surface activity. It is used for toughening ceramics and high temperature resistant mechanism ceramics. ZrN is a refractory hard compound with high decomposition temperature and good chemical stability, so it has good high temperature resistance, corrosion resistance and wear resistance. It is a good high temperature structural material, superhard tool material and surface protection material. ZrN has high corrosion resistance, good smooth surface and ductility. Widely used in architectural decoration, home appliances and other fields. Uses: ·Nanocomposite carbide tools, carbide ·High-temperature ceramic conductive material, heat-resistant and wear-resistant material ·Dispersion strengthening material, mainly used in hardware, building materials, bathroom and other daily hardware workpiece application direction. Group: Metal Colloids. CAS No. 25658-42-8. Molecular Weight: 105.23 g/mol. InChIKey: 2980 °C. Flash Point: 99.9 %. Purity: 7.09 g/cm³. | |
Zirconium Silicide (ZrSi2) Quick inquiry Where to buy | Zirconium Silicide (ZrSi2). Group: Semiconductor Materials. Alternative Names: Zirconium disilicide. CAS No. 12024-11-2. Purity: 99.9%. | |
Zirconium Tungstate Powder Quick inquiry Where to buy | Zirconium Tungstate Powder. Group: Other Nanomaterials. CAS No. 16853-74-0. Molecular Weight: Zr(WO4)2. Molecular Formula: 586.9 g/mol. Purity: 99%. Density: 5.09 g/cm³. | |
Zirconium (Zr) Quick inquiry Where to buy | Zirconium (Zr). Group: Semiconductor Materials. Alternative Names: High Purity Zirconium (Zr); 99.5% Zirconium (Zr); 99.9% Zirconium (Zr); Zirconium Crystal Bar; Zr Crystal Bar. CAS No. 12024-24-7. Purity: 2N5-3N. | |
ZK21A Quick inquiry Where to buy | Alfa Chemistry is a leading supplier of metals and alloys. Magnesium alloy ZK21A we can provide is available in extrusions. For more information, please feel free to contact us. Group: Alloy. |