Caustic Potash Suppliers USA
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Product | Description | |
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Caustic potash Quick inquiry Where to buy Suppliers range | Our wide distribution network, with locations coast-to-coast, helps guarantee fast, reliable service to Univar's customers. | |
Caustic Potash (wet and dry) Quick inquiry Where to buy Suppliers range | Caustic Potash (wet and dry) | |
Potassium Hydroxide/ Caustic Potash Quick inquiry Where to buy Suppliers range | Potassium Hydroxide is more commonly known as Caustic Potash. It is stable at elevated temperatures and is pretty non-volatile. Potassium Hydroxide can be used in a variety of applications such as industrial, food, chemical, and manufacturing. It can also serve as a chemical intermediate for photographic chemicals and dyes. Uses: Water Treatment, Descaling, Cleaners, Detergents, Refractories, Fertilizers. Alternative Names: Caustic Potash, KOH. CAS No. 1310-58-3. Pack Sizes: 55 Lb, 50 Lb. | USA |
Potassium Deuteroxide (40% w/w in D2O) Quick inquiry Where to buy Suppliers range | Potassium Deuteroxide (40% w/w in D2O). Group: Biochemicals. Alternative Names: Potassium Hydroxide-d; Potassium Hydroxide-d; Arrocon 2298-d; Caustic Potash-d; Clearcut S-d; Cyantek CC 723-d; Gardoclean S 5167-d; PSE 200-d; Potash-d. Grades: Highly Purified. CAS No. 24572-01-8. Pack Sizes: 1g. Molecular Formula: DKO, Molecular Weight: 57.11. US Biological Life Sciences. | Worldwide |
Potassium Hydroxide Quick inquiry Where to buy Suppliers range | Potassium Hydroxide. Categories: caustic potash, 1 potash lye, potassium hydrate, hydroxyde de potassium. Cas No. 310-58-3. | International |
Potassium Hydroxide, 1 M (0.56%), Aqueous, Laboratory Grade, 500 mL Quick inquiry Where to buy Suppliers range | Formula: KOH. Formula Wt: 56. 11. Storage Code: White; corrosive. DOT Class: Corrosive. Alternative Names: Caustic potash. Grades: chem-grade laboratory. CAS No. 1310-58-3. Product ID: 883497. -- SOLD FOR EDUCATIONAL USE ONLY -- | |
Potassium Hydroxide, ACS Quick inquiry Where to buy Suppliers range | Used in alkalimetric titrations. Group: Biochemicals. Alternative Names: Caustic Potash; KOH. Grades: ACS Grade. CAS No. 1310-58-3. Pack Sizes: 100g, 500g, 1Kg, 5Kg. Molecular Formula: KOH, Molecular Weight: 56.11. US Biological Life Sciences. | Worldwide |
Potassium Hydroxide, Pellets, Laboratory Grade, 500 g Quick inquiry Where to buy Suppliers range | Formula: KOH. Formula Wt: 56. 11. Storage Code: White; corrosive. DOT Class: Corrosive. Alternative Names: Caustic potash. Grades: chem-grade laboratory. CAS No. 1310-58-3. Product ID: 883470. -- SOLD FOR EDUCATIONAL USE ONLY -- | |
Potassium Hydroxide, Pellets, Reagent Grade, 500 g Quick inquiry Where to buy Suppliers range | Formula: KOH. Formula Wt: 56. 11. Storage Code: White; corrosive. DOT Class: Corrosive. Alternative Names: Caustic potash. Grades: chem-grade reagent. CAS No. 1310-58-3. Product ID: 883490. -- SOLD FOR EDUCATIONAL USE ONLY -- | |
Rhodium nanoparticles entrapped in aluminum hydroxide matrix preparation Quick inquiry Where to buy Suppliers range | Rhodium nanoparticles entrapped in aluminum hydroxide matrix preparation. Uses: At ordinary temperatures rhodium is stable in air. When heated above 600°C, it oxidizes to Rh2O3, forming a dark oxide coating on its surface. The gray crystalline sesquioxide has a corundom-like crystal structure. The sesquioxide, Rh2O3 , decomposes back to its elements when heated above 1,100°C. However, on further heating the metal starts to lose its weight similar to platinum, probably due to loss of its volatile oxide RhO2 dissolved in the metal. The molten metal readily absorbs gaseous oxygen. The metal in powder form absorbs hydrogen when heated. When heated with carbon monoxide under pressure rhodium forms carbonyl, Rh4(CO)12. The metal combines with halogens at elevated temperatures. When heated with fluorine at 500 to 600°C, it forms a trifluoride, RhF3, a red rhombohedral crystalline powder insoluble in water, dilute acids, or alkalis. Also, a blue tetrafluoride, RhF4, is formed as a minor product. When heated with chlorine gas above 250°C, the brown-red trichloride, RhCl3, forms. It is hygroscopic, decomposing at 450°C. Rhodium is attacked by fused caustic soda or caustic potash. Also, fused sodium or potassium cyanide and sodium bisulfate attack the metal. Molecular formula: Rh/AlO(OH). | |
Rhodium on alumina Quick inquiry Where to buy Suppliers range | Rhodium on alumina. Uses: At ordinary temperatures rhodium is stable in air. When heated above 600°C, it oxidizes to Rh2O3, forming a dark oxide coating on its surface. The gray crystalline sesquioxide has a corundom-like crystal structure. The sesquioxide, Rh2O3 , decomposes back to its elements when heated above 1,100°C. However, on further heating the metal starts to lose its weight similar to platinum, probably due to loss of its volatile oxide RhO2 dissolved in the metal. The molten metal readily absorbs gaseous oxygen. The metal in powder form absorbs hydrogen when heated. When heated with carbon monoxide under pressure rhodium forms carbonyl, Rh4(CO)12. The metal combines with halogens at elevated temperatures. When heated with fluorine at 500 to 600°C, it forms a trifluoride, RhF3, a red rhombohedral crystalline powder insoluble in water, dilute acids, or alkalis. Also, a blue tetrafluoride, RhF4, is formed as a minor product. When heated with chlorine gas above 250°C, the brown-red trichloride, RhCl3, forms. It is hygroscopic, decomposing at 450°C. Rhodium is attacked by fused caustic soda or caustic potash. Also, fused sodium or potassium cyanide and sodium bisulfate attack the metal. | |
Rhodium on carbon Quick inquiry Where to buy Suppliers range | Rhodium on carbon. Uses: At ordinary temperatures rhodium is stable in air. When heated above 600°C, it oxidizes to Rh2O3, forming a dark oxide coating on its surface. The gray crystalline sesquioxide has a corundom-like crystal structure. The sesquioxide, Rh2O3 , decomposes back to its elements when heated above 1,100°C. However, on further heating the metal starts to lose its weight similar to platinum, probably due to loss of its volatile oxide RhO2 dissolved in the metal. The molten metal readily absorbs gaseous oxygen. The metal in powder form absorbs hydrogen when heated. When heated with carbon monoxide under pressure rhodium forms carbonyl, Rh4(CO)12. The metal combines with halogens at elevated temperatures. When heated with fluorine at 500 to 600°C, it forms a trifluoride, RhF3, a red rhombohedral crystalline powder insoluble in water, dilute acids, or alkalis. Also, a blue tetrafluoride, RhF4, is formed as a minor product. When heated with chlorine gas above 250°C, the brown-red trichloride, RhCl3, forms. It is hygroscopic, decomposing at 450°C. Rhodium is attacked by fused caustic soda or caustic potash. Also, fused sodium or potassium cyanide and sodium bisulfate attack the metal. | |
Tin Quick inquiry Where to buy Suppliers range | Tin. Uses: At ordinary temperatures tin is stable in air. It actually forms a very thin protective oxide film. In powder form, and especially in the presence of moisture, it oxidizes. When heated with oxygen it forms tin(IV) oxide, SnO2.Tin reacts with all halogens forming their halides. Reaction with fluorine is slow at ordinary temperatures; however, chlorine, bromine and iodine readily react with the metal. Tin is attacked by concentrated acids. With dilute acids the reaction may be slow or very slow. The metal readily reacts with hot concentrated hydrochloric acid and aqua regia but slowly with cold dilute hydrochloric acid. The reaction also is slow with hot dilute sulfuric acid, which dissolves the metal, particularly in the presence of an oxidizing agent. The reaction with nitric acid is generally slow. Hot concentrated acid converts the metal to an insoluble hydrated tin(IV) oxide. The reaction is rapid with moist sulfur dioxide or sulfurous acid, chlorosulfonic, and pyrosulfuric acids. Organic acids such as, acetic, oxalic, and citric acids react slowly with the metal, particularly in the presence of air or an oxidizing agent. Strong alkaline solutions of caustic soda or caustic potash dissolve tin forming the stannate, Na2SnO3, or K2SnO3. The metal is stable in dilute solutions of ammonia or sodium carbonate. Tin dissolves in solutions of oxidizing salts such as potassium chlorate or potassium persulfate. The metal does not react with neutral salts in aqueous solutions. In air, tin reacts slowly with neutral salts. The metal does not combine directly with hydrogen, nitrogen or ammonia gas. Group: Nanoparticles & Nanopowders. Alternative Names: Tin, wire reel, 5m, diameter 1.0mm, as drawn, 99.99+%; Tin, foil, 300x300mm, thickness 0.5mm, as rolled, 98.8%; Tin, wire, diam. 0.25 mm, 99.99%; Tin, foil, 0.5m coil, thickness 0.15mm, as rolled, 98.8%; Tin, foil, light tested, 100x100mm, thickness 0.0125mm, 97.4%; Tin, foil, 2m coil, thickness 0.05mm, as rolled, 98.8%; Tin, rod, 100mm, diameter 2.0mm, 99.999+%; Tin, foil, 25mm disks, thickness 0.006mm, 97.4%; Tin, foil, 10mm disks, thickness 0.20mm, as rolled, 98.8%; Tin, foil, 50mm disks, thickness 0.006mm, 97.4%. CAS No. 7440-31-5. Molecular formula: Sn. Mole weight: 118.71g/mol. IUPAC Name: tin. Exact Mass |