Cobalt Carbonate
is the inorganic compound with the formula CoCO3. This reddish
paramagnetic solid is an intermediate in the hydrometallurgical
purification of cobalt from its ores. Cobalt Carbonate is an inorganic
pigment, and a precursor to catalysts. Commercially available pale
violet basic cobalt carbonate, with the formula CoCO3(Co(OH)x(H2O)y (CAS
12069-68-0).
Uses
Cobalt Carbonate
is a precursor to cobalt carbonyl and various cobalt salts. Cobalt
Carbonate is a component of dietary supplements since cobalt is an
essential element. Cobalt Carbonate is an precursor to blue pottery
glazes, famously in the case of Delftware.
Cobalt carbonate known
for its purity and efficacy, we offer cobalt (II) carbonate which is
also known as sphaerocobaltite and Cobalt carbonate is used as an
additive in animal fodder and pottery glaze. A carbonate salt of cobalt,
it forms red trigonal crystals with specific gravity 4.13 which
decompose on melting.
Cobalt compounds are used as pigments in glass and ceramics. It is used as a drying agent for paints, varnishes and inks.
Solubility: Insoluble in either cold or hot water but soluble in acids
Chemical formula: CoCO3
Packaged: In HDPE bags with liner
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Wednesday, 29 February 2012
Tuesday, 28 February 2012
What is Rubidium iodide?
Rubidium iodide is a compound with a melting point of 642 °C. Its chemical formula is RbI. Rubidium Iodide is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered.
CAS Number: 7790-29-6
Molecular Weight: 212.37
Molecular Formula: RbI
Physical Appearance: White to off-white powder
Rubidium iodide is used as organic intermediates.
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CAS Number: 7790-29-6
Molecular Weight: 212.37
Molecular Formula: RbI
Physical Appearance: White to off-white powder
Rubidium iodide is used as organic intermediates.
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Monday, 27 February 2012
Where to get Cobalt dioxide?
Cobalt dioxide or
cobalt monoxide is an inorganic compound that appears as olive-green to
red crystals, or as a greyish or black powder.[3] It is used
extensively in the ceramics industry as an additive to create blue
colored glazes and enamels as well as in the chemical industry for
producing cobalt(II) salts.
Properties of Cobalt dioxide
CoO crystals adopt the periclase (rock salt) structure with a lattice constant of 4.2615 Å.
It is antiferromagnetic below 16 °C.
Cobalt(II,III) oxide decomposes to cobalt(II) oxide at 950 °C.
As can be expected, cobalt(II) oxide reacts with mineral acids to form the corresponding cobalt salts.
Applications
Cobalt dioxide has for centuries used as a coloring agent on kiln fired pottery. The additive provides a deep shade of blue named cobalt blue. The band gap (CoO) is around 2.4 eV. It also is used in cobalt blue glass.
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Properties of Cobalt dioxide
CoO crystals adopt the periclase (rock salt) structure with a lattice constant of 4.2615 Å.
It is antiferromagnetic below 16 °C.
Cobalt(II,III) oxide decomposes to cobalt(II) oxide at 950 °C.
As can be expected, cobalt(II) oxide reacts with mineral acids to form the corresponding cobalt salts.
Applications
Cobalt dioxide has for centuries used as a coloring agent on kiln fired pottery. The additive provides a deep shade of blue named cobalt blue. The band gap (CoO) is around 2.4 eV. It also is used in cobalt blue glass.
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Sunday, 26 February 2012
What is Phosphoric acid rb?
Phosphoric acid rb, also known as orthophosphoric acid or phosphoric(V) acid, is a mineral (inorganic) acid having the chemical formula H3PO4. Orthophosphoric acid molecules can combine with themselves to form a variety of compounds which are also referred to as phosphoric acids, but in a more general way. The term phosphoric acid can also refer to a chemical or reagent consisting of phosphoric acids, usually orthophosphoric acid.
Pure anhydrous phosphoric acid is a white solid that melts at 42.35 °C to form a colorless, viscous liquid.
Chemical reagent
Pure 75–85% aqueous solutions (the most common) are clear, colourless, odourless, non-volatile, rather viscous, syrupy liquids, but still pourable. Phosphoric acid rb is very commonly used as an aqueous solution of 85% phosphoric acid or H3PO4. Because it is a concentrated acid, an 85% solution can be corrosive, although nontoxic when diluted. Because of the high percentage of phosphoric acid in this reagent, at least some of the orthophosphoric acid is condensed into polyphosphoric acids in a temperature-dependent equilibrium, but, for the sake of labeling and simplicity, the 85% represents H3PO4 as if it were all orthophosphoric acid. Other percentages are possible too, even above 100%, where the phosphoric acids and water would be in an unspecified equilibrium, but the overall elemental mole content would be considered specified. When aqueous solutions of phosphoric acid and/or phosphate are dilute, they are in or will reach an equilibrium after a while where practically all the phosphoric/phosphate units are in the ortho- form.
Phosphoric acid rb reacts with halides to form the corresponding hydrogen halide gas (steamy fumes are observed on warming the reaction mixture). This is a common practice for the laboratory preparation of hydrogen halides.
Phosphoric acid may be used as a "rust converter", by direct application to rusted iron, steel tools, or surfaces. The phosphoric acid converts reddish-brown iron(III) oxide, Fe2O3 (rust) to black ferric phosphate, FePO4.
"Rust converter" is sometimes a greenish liquid suitable for dipping (in the same sort of acid bath as is used for pickling metal), but it is more often formulated as a gel, commonly called naval jelly. It is sometimes sold under other names, such as "rust remover" or "rust killer". As a thick gel, it may be applied to sloping, vertical, or even overhead surfaces.
After treatment, the black ferric-phosphate coating can be scrubbed off, leaving a fresh metal surface. Multiple applications of phosphoric acid may be required to remove all rust. The black phosphate coating can also be left in place, where it will provide moderate further corrosion resistance.
Medical use
Phosphoric acid is used in dentistry and orthodontics as an etching solution, to clean and roughen the surfaces of teeth where dental appliances or fillings will be placed. Phosphoric acid is also an ingredient in over-the-counter anti-nausea medications that also contain high levels of sugar (glucose and fructose). This acid is also used in many teeth whiteners to eliminate plaque that may be on the teeth before application.
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Pure anhydrous phosphoric acid is a white solid that melts at 42.35 °C to form a colorless, viscous liquid.
Chemical reagent
Pure 75–85% aqueous solutions (the most common) are clear, colourless, odourless, non-volatile, rather viscous, syrupy liquids, but still pourable. Phosphoric acid rb is very commonly used as an aqueous solution of 85% phosphoric acid or H3PO4. Because it is a concentrated acid, an 85% solution can be corrosive, although nontoxic when diluted. Because of the high percentage of phosphoric acid in this reagent, at least some of the orthophosphoric acid is condensed into polyphosphoric acids in a temperature-dependent equilibrium, but, for the sake of labeling and simplicity, the 85% represents H3PO4 as if it were all orthophosphoric acid. Other percentages are possible too, even above 100%, where the phosphoric acids and water would be in an unspecified equilibrium, but the overall elemental mole content would be considered specified. When aqueous solutions of phosphoric acid and/or phosphate are dilute, they are in or will reach an equilibrium after a while where practically all the phosphoric/phosphate units are in the ortho- form.
Phosphoric acid rb reacts with halides to form the corresponding hydrogen halide gas (steamy fumes are observed on warming the reaction mixture). This is a common practice for the laboratory preparation of hydrogen halides.
Phosphoric acid may be used as a "rust converter", by direct application to rusted iron, steel tools, or surfaces. The phosphoric acid converts reddish-brown iron(III) oxide, Fe2O3 (rust) to black ferric phosphate, FePO4.
"Rust converter" is sometimes a greenish liquid suitable for dipping (in the same sort of acid bath as is used for pickling metal), but it is more often formulated as a gel, commonly called naval jelly. It is sometimes sold under other names, such as "rust remover" or "rust killer". As a thick gel, it may be applied to sloping, vertical, or even overhead surfaces.
After treatment, the black ferric-phosphate coating can be scrubbed off, leaving a fresh metal surface. Multiple applications of phosphoric acid may be required to remove all rust. The black phosphate coating can also be left in place, where it will provide moderate further corrosion resistance.
Medical use
Phosphoric acid is used in dentistry and orthodontics as an etching solution, to clean and roughen the surfaces of teeth where dental appliances or fillings will be placed. Phosphoric acid is also an ingredient in over-the-counter anti-nausea medications that also contain high levels of sugar (glucose and fructose). This acid is also used in many teeth whiteners to eliminate plaque that may be on the teeth before application.
More about: Phosphoric acid rb sale
Read more: metal oxide metal
Thursday, 23 February 2012
Descriptions and Applications of Tungsten powder
Properties: silvery white metal
Density: 19.35grams/centimeters
Melting point: 3410±20℃
Boiling point: 5927℃
Descriptions of Tungsten powder
Mainly to finish tungsten powder and tungsten carbide powder and the various compounds, tungsten widely used in chemical industry, machinery, electronics, and other fields, manufacturing filament and high-speed cutting steel alloy, also used in optical instruments.
Tungsten Powder has a number of valuable uses in today’s world. Tungsten Powder is used in electrical contacts, airbag deployment systems, and as the beginning material in tungsten mill products and wire. Tungsten powder is also used in particle guns for genetic modification of plants and vegetables and in radiation compensators.
Packaging:
50 kg/100 lb packed in a polyethylene bag within a 3½-gallon plastic pail, or 250 kg/500 lb packed in a polyethylene bag within a 17-gallon drum, or as requested by the customer.
Applications:
Tungsten powders are widely used in the production of weight fillers, radiation shielding fillers, and induction accelerators etc. Thin film surface of its polymer mixture are ideally suited for radiation protection. The large particles make it ideal heavy metal filler for injection-molding applications. The unique shape and resulting high flow ability of these particles make it suitable for metal spray industry applications.
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Density: 19.35grams/centimeters
Melting point: 3410±20℃
Boiling point: 5927℃
Descriptions of Tungsten powder
Mainly to finish tungsten powder and tungsten carbide powder and the various compounds, tungsten widely used in chemical industry, machinery, electronics, and other fields, manufacturing filament and high-speed cutting steel alloy, also used in optical instruments.
Tungsten Powder has a number of valuable uses in today’s world. Tungsten Powder is used in electrical contacts, airbag deployment systems, and as the beginning material in tungsten mill products and wire. Tungsten powder is also used in particle guns for genetic modification of plants and vegetables and in radiation compensators.
Packaging:
50 kg/100 lb packed in a polyethylene bag within a 3½-gallon plastic pail, or 250 kg/500 lb packed in a polyethylene bag within a 17-gallon drum, or as requested by the customer.
Applications:
Tungsten powders are widely used in the production of weight fillers, radiation shielding fillers, and induction accelerators etc. Thin film surface of its polymer mixture are ideally suited for radiation protection. The large particles make it ideal heavy metal filler for injection-molding applications. The unique shape and resulting high flow ability of these particles make it suitable for metal spray industry applications.
More about: Tungsten powder sale
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Wednesday, 22 February 2012
What is Cobalt Carbonate used for?
Uses
Cobalt Carbonate, also known as spherocobaltite, is a mineral with chemical formula CoCO3. It is the carbonate salt of cobalt. It forms red trigonal crystals with specific gravity 4.13 which decompose on melting. Cobalt carbonate is insoluble in either cold or hot water but soluble in acids.
Cobalt carbonate is used in pottery glazes and may be found in pottery supply stores.
Cobalt Carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
Read more: Cobalt Carbonate sale
More about: Cobalt oxide
Cobalt Carbonate, also known as spherocobaltite, is a mineral with chemical formula CoCO3. It is the carbonate salt of cobalt. It forms red trigonal crystals with specific gravity 4.13 which decompose on melting. Cobalt carbonate is insoluble in either cold or hot water but soluble in acids.
Cobalt carbonate is used in pottery glazes and may be found in pottery supply stores.
Cobalt Carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
Read more: Cobalt Carbonate sale
More about: Cobalt oxide
The new information of Urine cells
A NEW recently posted article inside Journal in the American Modern society Nephrology (JASN) implies that patients’ individual kidney cells might be gathered along with reprogrammed, so that in the longer term, fewer people with kidney disease would wish complicated, expensive processes that influence their quality lifestyle.
Sharon Ricardo, PhD, via Monash University or college in Clayton, Luxembourg and your ex colleagues needed cells via an individual’s kidney along with reprogrammed these people into progenitor cellular material, allowing your immature cells to any type the kidney. The crew inserted numerous key coding genes in the renal cellular material that built them competent at forming various other cells.
Throughout another analyze, Miguel Esteban, MD, PhD, in the Chinese Academy involving Sciences throughout Guangzhou, China along with his acquaintances found that will kidney cellular material collected through the patients’ urine can even be reprogrammed like this. The using urine cells is not hard to implement in a very clinical placing, and your urine cells might be frozen along with later thawed before these are reprogrammed.
If researchers can easily expand your reprogrammed cellular material, known while induced pluripotent base cells (iPSCs), and return the crooks to the affected individual, these IPSCs may possibly restore your kidneys’ health insurance and vitality. The breakthroughs can assist investigators to analyze the cause of kidney disease and screen brand-new drugs that is used to help remedy them.
Ian Rogers, PhD, from Install Sinai Infirmary in Toronto wrote in the accompanying editorial that this two reports “demonstrate your feasibility involving using kidney cells as being a source e iPSCs along with efficient generation of person iPSCs via urine signifies that cells might be collected without notice. ”.
More about: Urine cells sales
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Sharon Ricardo, PhD, via Monash University or college in Clayton, Luxembourg and your ex colleagues needed cells via an individual’s kidney along with reprogrammed these people into progenitor cellular material, allowing your immature cells to any type the kidney. The crew inserted numerous key coding genes in the renal cellular material that built them competent at forming various other cells.
Throughout another analyze, Miguel Esteban, MD, PhD, in the Chinese Academy involving Sciences throughout Guangzhou, China along with his acquaintances found that will kidney cellular material collected through the patients’ urine can even be reprogrammed like this. The using urine cells is not hard to implement in a very clinical placing, and your urine cells might be frozen along with later thawed before these are reprogrammed.
If researchers can easily expand your reprogrammed cellular material, known while induced pluripotent base cells (iPSCs), and return the crooks to the affected individual, these IPSCs may possibly restore your kidneys’ health insurance and vitality. The breakthroughs can assist investigators to analyze the cause of kidney disease and screen brand-new drugs that is used to help remedy them.
Ian Rogers, PhD, from Install Sinai Infirmary in Toronto wrote in the accompanying editorial that this two reports “demonstrate your feasibility involving using kidney cells as being a source e iPSCs along with efficient generation of person iPSCs via urine signifies that cells might be collected without notice. ”.
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What is the Oxidation gallium
Employed to make optical wine glass, vacuum hoses, semiconductor resources. Load quartz thermometer rating temperature. To aluminium heat can be purchased easily inside alloy. Gallium along with gold alloy employed in decoration along with extracting undesirable aspects. In addition used while organic synthesis catalyst. Works extremely well in your semiconductor sector, leds along with gaas lazer 2 incredibly.
It can be shown that this native oxide involving GaAs might be thermally produced easily at the temperature involving 250? °C by using a high-pressure oxidation strategy. The ending oxide videos are homogeneous, chemically stable and still have a dysfunction strength involving 68?? 106V/cm and also a bandgap energy in excess of 6?? 5eV. The compound composition in the oxide videos is examined using X-ray photoelectron spectroscopy, in fact it is found for you to contain oxides involving both gallium along with arsenic.
The cold weather oxidation involving gallium nitride (GaN) nanowires throughout dry air flow was investigated by making use of thermogravimetric along with transmission electron microscopy. The oxidation strongly is determined by the oxidation temperature plus the nanowire diameters. At temperatures under 700 °C, your oxidation can be dominantly manipulated by the oxygen compression reaction. A NEW chemical oxidation impulse occurs about further raising the temp, accompanied with the formation involving monoclinic gallium oxide (Ga2O3). The crystalline Ga2O3 could form a new dense shielding shell for the surfaces involving GaN nanowires using large diameters, whereas Ga2O3 can't crystallize straight into one-dimensional morphology for the initial GaN nanowires using small diameters.
more about:Oxidation gallium suppliers
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It can be shown that this native oxide involving GaAs might be thermally produced easily at the temperature involving 250? °C by using a high-pressure oxidation strategy. The ending oxide videos are homogeneous, chemically stable and still have a dysfunction strength involving 68?? 106V/cm and also a bandgap energy in excess of 6?? 5eV. The compound composition in the oxide videos is examined using X-ray photoelectron spectroscopy, in fact it is found for you to contain oxides involving both gallium along with arsenic.
The cold weather oxidation involving gallium nitride (GaN) nanowires throughout dry air flow was investigated by making use of thermogravimetric along with transmission electron microscopy. The oxidation strongly is determined by the oxidation temperature plus the nanowire diameters. At temperatures under 700 °C, your oxidation can be dominantly manipulated by the oxygen compression reaction. A NEW chemical oxidation impulse occurs about further raising the temp, accompanied with the formation involving monoclinic gallium oxide (Ga2O3). The crystalline Ga2O3 could form a new dense shielding shell for the surfaces involving GaN nanowires using large diameters, whereas Ga2O3 can't crystallize straight into one-dimensional morphology for the initial GaN nanowires using small diameters.
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Tuesday, 21 February 2012
Where to get Tungsten alloy?
Tungsten Alloys is a supplier of quality high density tungsten heavy alloys made from virgin powders using modern powder metallurgy techniques and CNC technology.
Tungsten Alloys operates a Quality Management System in accordance with ISO 9001 and is working towards certification by end of 2011
Tungsten Alloys has a team of qualified engineers, metallurgists and technical sales people with a wealth of experience within this specialised industry, giving a fast response to enquiries and advising on the optimum material for your application and on techniques for further processing.
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Tungsten Alloys operates a Quality Management System in accordance with ISO 9001 and is working towards certification by end of 2011
Tungsten Alloys has a team of qualified engineers, metallurgists and technical sales people with a wealth of experience within this specialised industry, giving a fast response to enquiries and advising on the optimum material for your application and on techniques for further processing.
More about: Tungsten alloy sale
Read more: metal oxide
Monday, 20 February 2012
What is the use of Cobalt carbonate?
Cobalt is a lustrous, silvery-blue metallic chemical element, symbol Co, atomic number of 27 and an atomic weight of 58.93.
Cobalt compounds are used as pigments in glass and ceramics. It is used as a drying agent for paints, varnishes and inks.
Uses
Cobalt carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
Cobalt carbonate has the coloring application as it decomposes to cobalt oxide at high temperature. Cobalt carbonate tends to disperse better in a glaze but can produce blisters because of the CO2 gas presence at high temperature. Commercial grades of cobalt carbonate are the complex of carbonate and hydroxide such as cobalt carbonate hydroxide (1:1) (CAS RN: 12069-68-0), Cobalt carbonate hydroxide (2:3) (CAS RN: 12602-23-2), and cobalt carbonate hydroxide (2:3) monohydrate (CAS RN: 51839-24-8).
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Cobalt compounds are used as pigments in glass and ceramics. It is used as a drying agent for paints, varnishes and inks.
Uses
Cobalt carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
Cobalt carbonate has the coloring application as it decomposes to cobalt oxide at high temperature. Cobalt carbonate tends to disperse better in a glaze but can produce blisters because of the CO2 gas presence at high temperature. Commercial grades of cobalt carbonate are the complex of carbonate and hydroxide such as cobalt carbonate hydroxide (1:1) (CAS RN: 12069-68-0), Cobalt carbonate hydroxide (2:3) (CAS RN: 12602-23-2), and cobalt carbonate hydroxide (2:3) monohydrate (CAS RN: 51839-24-8).
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Sunday, 19 February 2012
What is Barium nitrate?
Barium nitrate with chemical formula Ba(NO3)2 is a salt composed of barium and the nitrate ion.
Barium nitrate exists as a white solid at room temperature. It is soluble in water, and like other soluble barium compounds, is toxic and should be handled with care. It occurs naturally as the rare mineral nitrobarite.
Barium nitrate is manufactured by one of two processes. The first involves dissolving small chunks of barium carbonate in nitric acid, allowing any iron impurities to precipitate, then filtered, evaporated, and crystallized. The second requires combining barium chloride with a heated solution of sodium nitrate, causing barium nitrate crystals to separate from the mixture.
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Barium nitrate exists as a white solid at room temperature. It is soluble in water, and like other soluble barium compounds, is toxic and should be handled with care. It occurs naturally as the rare mineral nitrobarite.
Barium nitrate is manufactured by one of two processes. The first involves dissolving small chunks of barium carbonate in nitric acid, allowing any iron impurities to precipitate, then filtered, evaporated, and crystallized. The second requires combining barium chloride with a heated solution of sodium nitrate, causing barium nitrate crystals to separate from the mixture.
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Saturday, 18 February 2012
What is Copper used for?
Copper
is a chemical element with the symbol Cu (from Latin: cuprum) and
atomic number 29. It is a ductile metal with very high thermal and
electrical conductivity. Pure copper is soft and malleable; an exposed
surface has a reddish-orange tarnish. It is used as a conductor of heat
and electricity, a building material, and a constituent of various metal
alloys.
The metal and its alloys have been used for thousands of years. In the Roman era, Copper was principally mined on Cyprus, hence the origin of the name of the metal as сyprium (metal of Cyprus), later shortened to сuprum. Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as turquoise and have been widely used historically as pigments. Architectural structures built with copper corrode to give green verdigris (or patina). Decorative art prominently features copper, both by itself and as part of pigments.
Applications
The major applications of Copper are in electrical wires (60%), roofing and plumbing (20%) and industrial machinery (15%). Copper is mostly used as a metal, but when a higher hardness is required it is combined with other elements to make an alloy (5% of total use) such as brass and bronze. A small part of copper supply is used in production of compounds for nutritional supplements and fungicides in agriculture. Machining of copper is possible, although it is usually necessary to use an alloy for intricate parts to get good machinability characteristics.
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The metal and its alloys have been used for thousands of years. In the Roman era, Copper was principally mined on Cyprus, hence the origin of the name of the metal as сyprium (metal of Cyprus), later shortened to сuprum. Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as turquoise and have been widely used historically as pigments. Architectural structures built with copper corrode to give green verdigris (or patina). Decorative art prominently features copper, both by itself and as part of pigments.
Applications
The major applications of Copper are in electrical wires (60%), roofing and plumbing (20%) and industrial machinery (15%). Copper is mostly used as a metal, but when a higher hardness is required it is combined with other elements to make an alloy (5% of total use) such as brass and bronze. A small part of copper supply is used in production of compounds for nutritional supplements and fungicides in agriculture. Machining of copper is possible, although it is usually necessary to use an alloy for intricate parts to get good machinability characteristics.
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Thursday, 16 February 2012
How to buy 11Beta-HSD1?
11Beta-HSD1
inhibitors appear to be attractive R&D products for the treatment
of type 2 diabetes, because a large number of major biotechnology and
pharmaceutical companies are involved in their development, and this
pipeline, although very young, already has 70% of products in clinical
stage of development., according to a new report, titled Diabetes
R&D Pipeline: 11beta-HSD1 inhibitors, added to the offering of
Research and Markets.
11Beta-HSD1 (11beta-hydroxysteroid dehydrogenase type 1) antagonists are insulin sensitizers. 11beta-HSD1 is an enzyme that converts inactive cortisone into potent, biologically active hormone, cortisol. This conversion occurs within cells of key metabolic tissues including liver, adipose tissue, muscle tissue, and pancreas. Cortisol elevates blood glucose levels by increasing glucose production in liver, and by inhibiting uptake and disposal of glucose in muscle and adipose tissues.
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11Beta-HSD1 (11beta-hydroxysteroid dehydrogenase type 1) antagonists are insulin sensitizers. 11beta-HSD1 is an enzyme that converts inactive cortisone into potent, biologically active hormone, cortisol. This conversion occurs within cells of key metabolic tissues including liver, adipose tissue, muscle tissue, and pancreas. Cortisol elevates blood glucose levels by increasing glucose production in liver, and by inhibiting uptake and disposal of glucose in muscle and adipose tissues.
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Where to find Moxa Agent MUG6280?
Moxa Agent MUG6280
is suitable for finishing cotton and T/C, and it is provided with
permanent effect because it wraps the extract epurated from moxa into
capsule.
Use:The research shows that, moxa processes many functions such as anti-bacteria、anti-virus、alleviate-asthma、mitigate-cough、expectorant、 anticoagulant、anti-hypersusceptibility and liver-protect. Moxa agent MUG6280 is suitable for finishing cotton and T/C, and it is provided with permanent effect because it wraps the extract epurated from moxa into capsule.The fabric finished by MUG6280 gains functions of anti-bacteria、diminish- inflammation and anti-hypersusceptibility, besides it enhances blood circulation and is hygienical to skin.
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Use:The research shows that, moxa processes many functions such as anti-bacteria、anti-virus、alleviate-asthma、mitigate-cough、expectorant、 anticoagulant、anti-hypersusceptibility and liver-protect. Moxa agent MUG6280 is suitable for finishing cotton and T/C, and it is provided with permanent effect because it wraps the extract epurated from moxa into capsule.The fabric finished by MUG6280 gains functions of anti-bacteria、diminish- inflammation and anti-hypersusceptibility, besides it enhances blood circulation and is hygienical to skin.
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Wednesday, 15 February 2012
What is Cobalt Carbonate?
Cobalt Carbonate is the inorganic compound with the formula CoCO3. This reddish paramagnetic solid is an intermediate in the hydrometallurgical purification of cobalt from its ores. It is an inorganic pigment, and a precursor to catalysts. Commercially available pale violet basic cobalt carbonate, with the formula CoCO3(Co(OH)x(H2O)y (CAS 12069-68-0).
Properties
Cobalt Carbonate is prepared by heating cobaltous sulfate with a solution of sodium bicarbonate.
The resulting CoO converts reversibly to Co3O4 at high temperatures.[3] Like most transition metal carbonates, cobalt carbonate is insoluble in water but is readily attacked by mineral acids
Uses
Cobalt Carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
More about: Cobalt Carbonate sale
Properties
Cobalt Carbonate is prepared by heating cobaltous sulfate with a solution of sodium bicarbonate.
The resulting CoO converts reversibly to Co3O4 at high temperatures.[3] Like most transition metal carbonates, cobalt carbonate is insoluble in water but is readily attacked by mineral acids
Uses
Cobalt Carbonate is a precursor to cobalt carbonyl and various cobalt salts. It is a component of dietary supplements since cobalt is an essential element. It is an precursor to blue pottery glazes, famously in the case of Delftware.
More about: Cobalt Carbonate sale
Tuesday, 14 February 2012
What is Cobalt nitrate?
Cobalt nitrate is the inorganic cobalt(II) salt of nitric acid, often with various amounts of water. It is more commonly found as a hexahydrate, Co(NO3)2·6H2O, which is a red-brown deliquescent salt that is soluble in water and other polar solvents.
Uses
The high solubility of cobalt nitrate makes it a common source of cobalt in metal-organic frameworks and coordination chemistry. It is also reduced to metallic cobalt or precipitated on various substrates for Fischer-Tropsch catalysis.
Composition and structures of Cobalt nitrate
As well as the anhydrous compound Co(NO3)2, there are several hydrates of cobalt(II) nitrate. The various degrees of hydration can be summarised by the general chemical formula Co(NO3)2·nH2O, where n = 0, 2, 4, 6.
Anhydrous cobalt(II) nitrate adopts a three-dimensional polymeric network structure, with each cobalt(II) atom approximately octahedrally coordinated by six oxygen atoms, each from a different nitrate ion. Each nitrate ion coordinates to three cobalts.
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Uses
The high solubility of cobalt nitrate makes it a common source of cobalt in metal-organic frameworks and coordination chemistry. It is also reduced to metallic cobalt or precipitated on various substrates for Fischer-Tropsch catalysis.
Composition and structures of Cobalt nitrate
As well as the anhydrous compound Co(NO3)2, there are several hydrates of cobalt(II) nitrate. The various degrees of hydration can be summarised by the general chemical formula Co(NO3)2·nH2O, where n = 0, 2, 4, 6.
Anhydrous cobalt(II) nitrate adopts a three-dimensional polymeric network structure, with each cobalt(II) atom approximately octahedrally coordinated by six oxygen atoms, each from a different nitrate ion. Each nitrate ion coordinates to three cobalts.
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Are you searching Lithium Cobalt Dioxide?
Lithium Cobalt Dioxide
(LiCoO2) is a chemical compound commonly used in the positive
electrodes of lithium-ion batteries. The structure of LiCoO2 is known
theoretically and has been confirmed with techniques like x-ray
diffraction, electron microscopy, neutron powder diffraction, and EXAFS:
it consists of layers of lithium that lie between slabs of octahedra
formed by cobalt and oxygen atoms. The crystal structure is denoted
R\bar 3m in Hermann-Mauguin notation, signifying a rhombus-like unit
cell with threefold improper rotational symmetry and a mirror plane.
More simply, however, both lithium and cobalt are octahedrally
coordinated by oxygen. Each cobalt atom is aligned on a common axis with
lithium atoms and separated from each lithium atom by a triangle of
oxygen atoms as can be seen in the figures. The threefold rotational
axis is termed improper because the oxygen triangles are anti-aligned.
Exposure to soluble cobalt salts can lead to Beer Drinker’s Cardiomyopathy. MSDS sheets list lithium cobalt oxide is a potential human carcinogen but indicate “no data available” under the Acute Toxicity heading. However, unlike cobalt(II) salts, this oxide is insoluble in water. Lithium ion batteries contain lithium cobalt oxide and are considered nonhazardous waste. Safety precautions should be taken when handling it.
The compound’s usefulness as an intercalation electrode was discovered in 1980 by John B. Goodenough’s research group at Oxford.
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Exposure to soluble cobalt salts can lead to Beer Drinker’s Cardiomyopathy. MSDS sheets list lithium cobalt oxide is a potential human carcinogen but indicate “no data available” under the Acute Toxicity heading. However, unlike cobalt(II) salts, this oxide is insoluble in water. Lithium ion batteries contain lithium cobalt oxide and are considered nonhazardous waste. Safety precautions should be taken when handling it.
The compound’s usefulness as an intercalation electrode was discovered in 1980 by John B. Goodenough’s research group at Oxford.
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Sunday, 12 February 2012
Uses of Barium chloride
Barium chloride is the inorganic compound with the formula BaCl2. It is one of the most common water-soluble salts of barium. Like other barium salts, it is toxic and imparts a yellow-green coloration to a flame. It is also hygroscopic.
Uses
As an inexpensive, soluble salt of barium, Barium chloride finds wide application in the laboratory. It is commonly used as a test for sulfate ion (see chemical properties above). In industry, barium chloride is mainly used in the purification of brine solution in caustic chlorine plants and also in the manufacture of heat treatment salts, case hardening of steel, in the manufacture of pigments, and in the manufacture of other barium salts. BaCl2 is also used in fireworks to give a bright green color. However, its toxicity limits its applicability.
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Uses
As an inexpensive, soluble salt of barium, Barium chloride finds wide application in the laboratory. It is commonly used as a test for sulfate ion (see chemical properties above). In industry, barium chloride is mainly used in the purification of brine solution in caustic chlorine plants and also in the manufacture of heat treatment salts, case hardening of steel, in the manufacture of pigments, and in the manufacture of other barium salts. BaCl2 is also used in fireworks to give a bright green color. However, its toxicity limits its applicability.
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Thursday, 9 February 2012
Where to buy Beryllium oxide?
Beryllium oxide(BeO),
also known as beryllia, is an inorganic compound with the formula BeO.
This colourless solid is a notable electrical insulator with a higher
thermal conductivity than any other non-metal except diamond, and
actually exceeds that of some metals.
Applications
Beryllium oxide is used in many high-performance semiconductor parts for applications such as radio equipment because it has good thermal conductivity while also being a good electrical insulator. It is used as a filler in some thermal interface materials such as thermal grease. Some power semiconductor devices have used beryllium oxide ceramic between the silicon chip and the metal mounting base of the package in order to achieve a lower value of thermal resistance than for a similar construction made with aluminium oxide. It is also used as a structural ceramic for high-performance microwave devices, vacuum tubes, magnetrons, and gas lasers.
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Applications
Beryllium oxide is used in many high-performance semiconductor parts for applications such as radio equipment because it has good thermal conductivity while also being a good electrical insulator. It is used as a filler in some thermal interface materials such as thermal grease. Some power semiconductor devices have used beryllium oxide ceramic between the silicon chip and the metal mounting base of the package in order to achieve a lower value of thermal resistance than for a similar construction made with aluminium oxide. It is also used as a structural ceramic for high-performance microwave devices, vacuum tubes, magnetrons, and gas lasers.
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Wednesday, 8 February 2012
Uses of Cobalt Sulfate
Industrial Uses
Adding Cobalt Sulfate to nickel-plating baths makes treated metals brighter, harder, more ductile and smoother. The mineral also produces red tints in pottery and porcelain glazes and helps to dry and fix inks on lithographic prints.
Food and Drug Uses
Brewers once used Cobalt Sulfate to prolong the life of beer foam, and ranchers have dosed livestock with cobalt sulfate or used fertilizer enriched with cobalt sulfate to ensure their animals get enough of the trace mineral needed to produce vitamin B12. Also, until recently, cobalt sulfate had a therapeutic role in treating certain forms of anemia.
Health Risks
Long-term or repeated eye and skin exposure to cobalt sulfate can cause irritation, a rash and redness that will fade when such exposures end. Inhaling cobalt sulfate dust over an extended period, which is a possibility in manufacturing settings where the powdered mineral is used, can lead to poisoning and might cause cancer.
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Adding Cobalt Sulfate to nickel-plating baths makes treated metals brighter, harder, more ductile and smoother. The mineral also produces red tints in pottery and porcelain glazes and helps to dry and fix inks on lithographic prints.
Food and Drug Uses
Brewers once used Cobalt Sulfate to prolong the life of beer foam, and ranchers have dosed livestock with cobalt sulfate or used fertilizer enriched with cobalt sulfate to ensure their animals get enough of the trace mineral needed to produce vitamin B12. Also, until recently, cobalt sulfate had a therapeutic role in treating certain forms of anemia.
Health Risks
Long-term or repeated eye and skin exposure to cobalt sulfate can cause irritation, a rash and redness that will fade when such exposures end. Inhaling cobalt sulfate dust over an extended period, which is a possibility in manufacturing settings where the powdered mineral is used, can lead to poisoning and might cause cancer.
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Tuesday, 7 February 2012
Uses of Gallium metal
Uses: Used to make optical glass, vacuum tubes, semiconductor materials. Gallium metal and gold alloy used in decoration and extracting bad aspects. Also used as organic synthesis catalyst. Can be used in the semiconductor industry, leds and gaas laser 2 extremely.
Precautions
The Ga(III) ion of soluble gallium salts tends to form the insoluble hydroxide when injected in large amounts, and in animals precipitation of this has resulted in renal toxicity. In lower doses, soluble gallium metal is tolerated well, and does not accumulate as a poison.
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Precautions
The Ga(III) ion of soluble gallium salts tends to form the insoluble hydroxide when injected in large amounts, and in animals precipitation of this has resulted in renal toxicity. In lower doses, soluble gallium metal is tolerated well, and does not accumulate as a poison.
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Monday, 6 February 2012
The Use of Molybdenum trioxide
Molybdenum trioxide is Used for producing metal molybdenum and molybdenum compound materials. Oil industry as catalysts. It can also be used to enamel as medicine pigments and drug, etc. Molybdenum Trioxide is also used as Halogen synergist fire retardants and smoke suppressants for wide range polymers applications.
Molybdenum Trioxide Molybdenum trioxide occurs as an odorless powder, or in coarse-grained or crystalline configuration. Molybdenum trioxide is white, or slightly yellow to slightly bluish, depending on the temperatures. Molybdenum trioxide without delay combinings with acids and footings to form a series of polymeric compounds.
MoO3 A white solid at room temperature, with a melting point of 795°C ; soluble in concentrated mixtures of nitric and sulfuric acids and nitric and hydrochloric acids; used as a corrosion inhibitor, in enamels and ceramic glazes, in medicine and agriculture, and as a catalyst in the petroleum industry.
Molybdenum trioxide is a crystalline compound MoO3 made usu. by roasting molybdenite or by heating ammonium molybdate and used chiefly in making other molybdenum compounds and metallic molybdenum and as a catalyst —called also molybdic oxide.
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The Application of Agent Chromium Oxide
Chromium oxide is the inorganic compound of the formula Cr2O3. It is one of principal oxides of chromium and is used as a pigment. In nature, it occurs as the rare mineral eskolaite. It is a green powder with strong coloring strength and covering strength. Specific gravity: 5.21g /ml. Melting point:2266. Boiling point: 4000. Insoluble in water, sparingly insoluble in acids, comparatively stable in the atmosphere, not react with acid and alkali of average concentration and sulfur dioxide, with excellent pigmental quality and outstanding color fastness.
It is not readily attacked by acids or bases, although molten alkali gives chromites (salts with the Cr 2O24 anion, not to be confused with the related mineral chromite). It turns brown when heated, but reverts to its dark green color when cooled. It is also hygroscopic.
Chromium oxide is amphoteric. Although insoluble in water, it dissolves in acid to produce hydrated chromium ions, [Cr(H2O)6]3+. It dissolves in concentrated alkali to yield chromite ions. Cr2O3 occurs by nature inward mineral eskolaite, which embodies came up in chromium-rich tremolite skarns, metaquartzites, and chlorite veins. Eskolaite is also a rare component of chondrite meteorites. The mineral is named after Suomi geologist Pentti Eskola.
Thursday, 2 February 2012
Oxides of Chromium
Chrome oxide green has been used in artists' paints since the 1800s. More recently, chrome oxide greenish equals added up to paints used for industrial purposes, such as military vehicles and in institutionalised Department of the Interior.
Chromium(III) oxide is the inorganic compound of the formula Cr2O3. It is one of principal oxides of chromium and is used as a pigment. In nature, it occurs as the rare mineral eskolaite. Its basic chemical composition is Cr2O3. Chrome oxide green is used to create a green coloring in plastics, paints, and glass. It is also used in certain rounding off and focalizing processes.
Chrome oxide green, also known as chromium oxide green, chromium sesquioxide, or chromia, is a powdered mineral expended to attention deficit hyperactivity disorder colorise to various materials. Crocoite was used as a pigment, and after the discovery that the mineral chromite also contains chromium, this mineral was used to produce pigments as well.
Chromium oxide was used by the Chinese in the Qin dynasty over 2,000 years ago to coat weapons such as bronze crossbow bolts and steel swords found at the Terracotta Army. It later came to the attention of the west when it was discovered by Louis Nicolas Vauquelin in the mineral crocoite (lead(II) chromate) in 1797.
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Wednesday, 1 February 2012
The Effection of Chromium Oxide
Chromium oxide is the inorganic compound of the formula Cr2O3. It is one of principal oxides of chromium and is used as a pigment. In nature, it occurs as the rare mineral eskolaite. It is a green powder with strong coloring strength and covering strength. Specific gravity: 5.21g /ml. Melting point:2266. Boiling point: 4000. Insoluble in water, sparingly insoluble in acids, comparatively stable in the atmosphere, not react with acid and alkali of average concentration and sulfur dioxide, with excellent pigmental quality and outstanding color fastness.
It is not readily attacked by acids or bases, although molten alkali gives chromites (salts with the Cr 2O24 anion, not to be confused with the related mineral chromite). It turns brown when heated, but reverts to its dark green color when cooled. It is also hygroscopic.
Chromium oxide is amphoteric. Although insoluble in water, it dissolves in acid to produce hydrated chromium ions, [Cr(H2O)6]3+. It dissolves in concentrated alkali to yield chromite ions. Cr2O3 occurs by nature inward mineral eskolaite, which embodies came up in chromium-rich tremolite skarns, metaquartzites, and chlorite veins. Eskolaite is also a rare component of chondrite meteorites. The mineral is named after Suomi geologist Pentti Eskola.
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