What is a CAS Number?

In order to correctly identify specific chemicals, the Chemical Abstracts Service (CAS) has designated 163 million organic and inorganic compounds their own unique CAS Registry Number, a five-to-ten string of text in the form of xxxx-yy-z. It’s like a compound’s social security number: regardless of the compound’s name(s), it has only one CAS-Number. The implementation of the CAS-Number system has solved significant scientific complexities, most of which have made technical communication difficult. Because compounds may have a myriad of names and/or unusual and long names, the CAS-Number is a convenient way of specifying and identifying a compound without additional confusion. Take methanol, for example, which has an extensive list of commonly used synonyms¹—methyl alcohol, wood alcohol, carbinol, methylol, hydroxymethyl, MeOH, etc. And those are only in English! If methanol is instead referred to by its CAS-Number 67-56-1, there is then a bridge that traverses all synonyms and languages. Additionally, CAS-Numbers are assigned to the specific forms of a compound to avoid even further confusion. While 1317-38-0 and 1317-39-1 both refer to Cupric Oxide compounds, the former appears as a wire whereas the latter is a black powd er. The question ‘Which form of Cupric Oxide?’ is thus eliminated by just a few digits. CAS-Numbers are particularly beneficial in laboratory environments, business transactions involving chemicals, and for educational purpose s. So, if you’re in any of these potential domains, CAS-Numbers are necessary tools that are 1) easily found on Google and 2) completely cost-free.

The CAS was originally founded in 1907 as a division of the American Chemical Society to help scientists easily access colleagues’ literature. About sixty years later, the registry introduced the CAS-Number to make chemical identification simpler and more seamless; and in 1980, the CAS online database was founded and proved to be invaluable to chemical research and the transmission of chemical information. The United States Environmental Protection Agency (USEPA) now relies on CAS numbers for the definite identification of chemical substances (EPA-United States Environmental Protection Agency 1998), as well as The European Union (EU) through the REACH (Regulation on Registration, Evaluation, Authorization and Restriction of Chemicals) candidate list, which relies on a proper identification of these problematic substances (REACH 2007). It’s essentially ubiquitous in the chemical world and effortless to access/utilize. Though there are various ways of finding a compound’s CAS-Number, the example below demonstrates one way of doing so.

¹ Information found on PubChem, an open chemistry database at the National Institutes of Health(NIH). “Methanol.” National Center for Biotechnology Information. PubChem Compound Database, U.S. National Library of Medicine, pubchem.ncbi.nlm.nih.gov/compound/Methanol.

Two of the easiest and most credible sources to use when finding a compound’s CAS-Number are ChemIDplus from the National Library of Medicine and the NIST Chemistry Webbook from the National Institute of Standards and Technology. For simplicity, I’ll just explain using ChemIDplus. Begin by searching “ChemIDplus” in the Google search bar, and click on the first result to get to the main search page. It should read “ChemIDplus Advanced.” Then, simply enter the desired compound under “Substance Identification.” I’m going to use Ibuprofen for this example, only because my father and I recently had an argument about its validity. Notice that after searching Ibuprofen in the Substance Identification table, Ibuprofen was the main Substance Name. If I searched “Advil” instead of Ibuprofen, I would have to click on “Names and Synonyms” to clarify it is the same substance. If it directs you to the correct substance, the CAS-Number can be found directly under the substance name, where “RN” indicates the corresponding Registry Number. Note, however, that this is only if using the ChemIDplus website. These numbers are sometimes in square brackets and in other abbreviations on other websites. But no matter how you find the CAS-Number, remember that each compound, and form of that compound, will have its own CAS-Number . So, double check that the number and compound are the correct match., or its uses go down the drain.

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What is Potassium Manganate used for?

Potassium manganate is the inorganic compound with the formula K2MnO4. This green-colored salt is an intermediate in the industrial synthesis of potassium permanganate (KMnO4), a common chemical. Occasionally, potassium manganate and potassium permanganate are confused, but they are different compounds with distinctly different properties.

Potassium Manganate is used for producing batteries, bleaching skins, fibers, oils; disinfectants; mordant (wool); photography; printing; source of oxygen (dyeing); water purification. Learn more about City Chemical LLC.

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Preparation For Chemical Spills In The Work Environment Needs To Be Made

Chemicals in the workplace have to be considered for repercussions of spills before they take place. Breakthrough prep work can prevent a small spill from becoming a catastrophe. Before dealing with any chemical, end up being accustomed to a chemical's threats consisting of hazards of a clean-up. Read the Material Safety Data Sheet (MSDS) as well as use suitable safeguards to prevent a spill in the first place. Have the correct emergency situation equipment or spill sets prior to a spill happens for each and every family members of chemicals. If a spill does occur, the chemical must be understood and also any kind of dangers it will certainly impose. Have a policy on that to get in touch with for a spill. Make use of the correct treatments with the clean-up. If an emergency solution is required to be gotten in touch with, the details on the chemical splashed will certainly require to be recognized, such as if the chemical is health and wellness harmful. Information required to be collected for a splashed chemical: Personal direct exposure - If the spill will certainly create accident to any individual vacate the area. Control - If it is practical to stop the spill from spreading or going into a flooring drainpipe. Prevent access - If others may pertain to damage by entering the location, prevent access to the location. Analysis - Establish the sort of material splashed and also the degree of the spill. Injuries - Determine type and also degree of injuries, if appropriate. Reporting-- Know that to contact. A phone emergency contact listing need to be uploaded by each phone. Be prepared to address concerns on the material splashed, quantity, threats, degree of the spill, and also if any type of what injuries have taken place. The responsibility for clean-up of a spill of a material is based upon the level of risk of the spill itself and the level of individual safety devices called for. Spills that are not health harmful or there are trained people with correct clean-up devices, the spill ought to be consisted of and also removed. Spills that call for protective clothes and also an air-purifying respirator should be taken care of by highly educated employees and may consist of outdoors services. In order to identify that is responsible for a clean-up of a spill, each chemical must be categorized for a provided circumstance. Check out the MSDS on a chemical prior to collaborating with it. Know what to do if the splashed amount is little or a large amount. Chemicals might be fairly harmless in small amounts, however incredibly dangerous in big quantities. City Chemical produces chemicals like: Acetone Sodium Bisulfite (540-92-1), Aluminum Citrate (31142-56-0), Aluminum Fluoride (7784-18-1), Ammonium Carbamate (1111-78-0), Ammonium Iodide (12027-06-4), Ammonium Fluoride (12125-01-8), Barium Cyanide (542-62-1), Cerium Molybdate (13454-70-1), Clerici Solution (61971-47-9), Cobalt Carbonyl (10210-68-1), Cupric Oxide (1317-38-0), Dichlorophene (97-23-4), Diethylsilane (542-91-6), 3,3-Dimethylnaphthidine (13138-48-2), Germanium Disulfide (12025-34-2), D-Glucosamine (3416-24-8), Hexamethylditin (661-69-8), Humic Acid (1415-93-6), DL-Iso-Citric Acid triSodium Salt (1637-73-6), Lead Iodide (10101-63-0), Lead Thiocyanate (592-87-0), Magnesium Fluoride (7783-40-6), Molybdenum Dichloride Dioxide (13637-68-8), Nickel Monoxide (1313-99-1), Potassium Manganate (10294-64-1), Primuline (8064-60-6), Quininic Acid (86-68-0), Silicon Tetraiodide (13465-84-4), Silver Nitrate (7761-88-8), Tantalum Ethoxide (6074-84-6), Tetraethylgermanium (597-63-7), Tetraethylsilane (631-36-7), Triethylsilane (617-86-7), Tubocurarine Chloride (57-94-3), Zinc Chromate (13530-65-9), Zinc Silicofluoride (16871-71-9), CVD & ALD Precursors, Electronic Chemicals, Laboratory Reagents, Patina Chemicals Learn more about City Chemical at citychemical.com If the possibility of a spill has actually written plans and skilled employees, the potential for a calamity can be prevented. Recognizing and recording chemicals available will guarantee the safety of employees. This understanding will additionally be essential for emergency situation personnel responding to a call such as a fire on the properties.

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Bismuth (III) Oxychloride - Cas No. 7787-59-9

Bismuth (III) Oxychloride - Cas No. 7787-59-9 is an inorganic compound of bismuth with the chemical formula: BiOCl. BiOCl is formed during the reaction of bismuth chloride with water. It has been used in cosmetic products such as eye shadow, hair sprays, powders, nail polishes, and many more. It is also known as pearl white. Learn more about City Chemical LLC.

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1,4-Naphthoquinone - Cas No. 130-15-4

1,4-Naphthoquinone (Cas: 130-15-4) or para-naphthoquinone is an organic compound derived from naphthalene. It has a molecular formula of: C10H6O2. It forms volatile yellow triclinic crystals and has a sharp odor similar to benzoquinone. It is almost insoluble in cold water, slightly soluble in petroleum ether, and more soluble in polar organic solvents. It is mainly used as a precursor to anthraquinone by reaction with butadiene followed by oxidation. Learn more about City Chemical LLC.

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Antimony Trioxide - Cas No. 1309-64-74

Antimony Trioxide - CAS No. 1309-64-74 is the inorganic compound with the formula Sb2O3. It is the most important commercial compound of antimony. It is found in nature as the minerals valentinite and senarmontite. It dissolves in aqueous solutions with hydrolysis. It is mainly used as flame retardant synergist in combination with halogenated materials. It is also used in the manufacturing of a plastic material known as polyethylene terephthalate (PET). Learn more about City Chemical LLC.

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Zinc Oleate - Cas No. 557-07-3

Zinc Oleate (Cas. 557-07-3) is the Zinc salt of oleic acid with the molecular formula: C36H66O4Zn. It is a light tan color powder containing about 8.5-10.5% zinc. Zinc oleate may appear as bloom on the surface of oil or alkyd paints when it is formed by the reaction of oleic acid with zinc white pigment. Zinc oleate is also used as a drier in paints, resins and varnishes. Learn more about City Chemical LLC.

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Triolein - Cas No. 122-32-7

Triolein (CAS: 122-32-7) is a chemical compound with the molecular formula: C57H104O6. It is a symmetrical triglyceride derived from glycerol and three units of the unsaturated fatty acid oleic acid. Triolein is one of the two components of Lorenzo's oil. Learn more about City Chemical LLC.

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Silver Periodate - Cas No. 15606-77-6

Silver Periodate - Cas No. 15606-77-6 is a chemical compound with the formula Ag5IO6. It has molecular weight of 762.24. It is a white crystal composed of silver, iodine and oxygen. Unlike most metal iodates, it is practically insoluble in water. Learn more about City Chemical LLC.

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Silver Difluoride - Cas No. 7783-95-1

Silver Difluoride (Cas No. 7783-95-1) is a chemical compound with the formula AgF2. It is a rare example of a silver(II) compound. It appears as a white crystalline powder, but it is usually black/brown due to impurities. It is used as a fluorinating agent in the fluorination and preparation of organic perfluorocompounds. Learn more about City Chemical LLC.

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Silver Cyanide - Cas No. 506-64-9

Silver cyanide (Cas No. 506-64-9) is the chemical compound with a molecular formula of: AgCN. It appears in a white solid form upon treatment of solutions containing Silver with cyanide. This precipitation step is used in some schemes to recover silver from solution. Silver cyanide is used in silver plating. Learn more about City Chemical LLC.

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Potassium Thiosulfate - Cas No. 10294-66-3

Potassium Thiosulfate (CAS 10294-66-3) is a chemical compound with a molecular formula of: K2S2O3. It appears in white crystalline solid form and is used in agricultural products. It is generally immediately available in most volumes. Learn more about City Chemical LLC.

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Potassium Metaborate - Cas No. 16481-66-6

Potassium Metaborate (Cas: 16481-66-6), also known as Boric acid (HBO2), potassium salt, is a chemical compound with a molecular formula of: BKO2. It can cause skin and serious eye irritation. May also cause respiratory irritation. It is used in Industrial Drilling, Oil and Gas Production, Drilling Fluid, Hydraulic Fracturing, Fracking. Learn more about City Chemical LLC.

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Ferric Oleate - Cas No. 1120-45-2

Ferric Oleate (Cas. 1120-45-2) is a combustible chemical compound with a molecular formula of: C54H99FeO6. Brownish-red lumps in appearance, it is soluble in alcohol, ether, and acids but insoluble in water. Learn more about City Chemical LLC.

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Dodecylamine Acetate - Cas No. 2016-56-0

Dodecylamine Acetate - Cas No. 2016-56-0 is a chemical compound with a molecular formula of: C14H31NO2. It is a white to almost white powder to crystal and can be harmful if swallowed or inhaled. It may also cause eye and respiratory irritation. It should be kept in a tightly closed container and stored in a well ventilated place. Learn more about City Chemical LLC.

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Cuprous Oxide - Cas No. 1317-39-1

Cuprous oxide (Cas No. 1317-39-1) or Copper(I) oxide, is the inorganic compound with the formula Cu2O. Aside from CuO or cupric oxide, it is one of the principal oxides of copper. The clor red solid is a component of some antifouling paints. The compound can appear either yellow or red, depending on the size of the particles. It is commonly used as a pigment, a fungicide, and an antifouling agent for marine paints. Learn more about City Chemical LLC.

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Calcium Fluoride - Cas No. 7789-75-5

Calcium fluoride - CAS 7789-75-5 is the inorganic compound of the elements calcium and fluorine with the formula CaF2. It is a white insoluble solid and is the principal source of hydrogen fluoride, which is a commodity chemical used to produce a wide range of materials. It is also used to manufacture optical components such as windows and lenses, used in thermal imaging systems, spectroscopy, telescopes, and lasers. Learn more about City Chemical LLC.

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Zinc Salicylate - Cas No. 16283-53-0

Zinc Salicylate (CAS No. 16283-53-0) is a white crystalline powder with a molecular formula of: C14H10O6Zn. It is an antiseptic, astringent and source of zinc for personal care products such as dusting powders and antiperspirants. It is also used in the production of carbonless copy paper as a color developer. Learn more about City Chemical LLC.

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Silver-2,4-Pentanedionate - Cas No. 15525-64-1

Silver-2,4-Pentanedionate (Cas No. 15525-64-1) is a dark beige crystalline powder with a molecular formula of: C5H7AgO2. It is also known as Silver acetylacetonate and is used to make silver impregnated nanocrystalline metal oxides, with special emphasis on aluminum oxide. Learn more about City Chemical LLC.

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Retene - Cas No. 483-65-8

Retene - Cas No. 483-65-8, also known as methyl isopropyl phenanthrene or 1-methyl-7-isopropyl phenanthrene, is a crystalline hydrocarbon with a molecular formula of: C18H18. It is isolated especially from pine tar, rosin oil, and various fossil resins but usually prepared from abietic acid and related compounds by dehydrogenation. It occurs naturally in the tars obtained by the distillation of resinous woods. Learn more about City Chemical LLC.

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Platinum Resinate - Cas No. 68916-35-8

Platinum Resinate (Cas No. 68916-35-8) is a brownish grey powder, insoluble in water, with a Platinum content 33-37%. It is used in Electronic microcircuits, metal films, glass filters, and heat reflecting mirrors. Learn more about City Chemical LLC.

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Platinum Acetate

Platinum Acetate is a purple-colored coordination complex formed by platinum and acetic acid. It has a molecular formula of: C4H8O4Pt. Learn more about City Chemical LLC.

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Pangamic Acid Sodium Salt - Cas No. 77700-02-8

Pangamic Acid Sodium Salt (Cas No. 77700-02-8), also known as Sodium pangamate, is the sodium salt form of pangamic acid with molecular formula: C10H8NNaO8. It is used for improving exercise endurance, treating asthma, high blood pressure, angina, hypertension, headache skin diseases, eczema, lung problem, nerve pain, joint problem, cancer and arthritis. Learn more about City Chemical LLC.

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Palladium Resinate - Cas No. 68425-21-8

Palladium Resinate (CAS 68425-21-8) also know as Palladium Resinate MR4601-P, Turpentine, oil, mixedw ith Venice turpentine, sulfurized, tetrachloropalladates; has a purity of Pd content; 24.0~27.0%. It is used in the electrical and electronic industries for the deposition of metal films on heat-resisting non-metallic substrates, such as ceramics of various types, mica and glass. Learn more about City Chemical LLC.

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Octachlorotrisilane - Cas No. 13596-23-1

Octachlorotrisilane (Cas No. 13596-23-1) is a chemical compound molecular formula: Cl8Si3. It is being recognized as a promising precursor for ALD processes that lower the thermal budget for the deposition of Silicon dioxide and Silicon nitride, which tend to be used in high volume manufacturing. Octachlorotrisilane is a corrosive, water-reactive, colorless liquid that requires extreme care when handling and transporting. Learn more about City Chemical LLC.

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Hexachlorodisiloxane - Cas No. 14986-21-1

Hexachlorodisiloxane (CAS number: 14986-21-1) is a chemical compound with molecular formula: Cl6OSi2. Also known as trichloro(trichlorosilyloxy)silane, it has a molecular weight of 284.9 g/mol and boiling point of 137°. It reacts rapidly with moisture, water and protic solvents. Learn more about City Chemical LLC.

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Gold Resinate - Cas No. 68990-27-2

Gold Resinate - Cas No. 68990-27-2 are ionic chemical compounds of gold prepared by reacting a terpene sulfide with gold chloride or potassium chloroaurate. Learn more about City Chemical LLC.

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Silver Oxalate - Cas No. 533-51-7

Silver oxalate (Cas No. 533-51-7) is currently being used as a precursor for Silver nanoparticles. Silver Nanoparticles can be used in first aid bandages, textiles, coatings, plastics, soaps and skin care products. It is frequently used in experimental petrology to add carbon dioxide (CO2) to experiments as it will break down to silver (Ag) and carbon dioxide under geologic conditions. Learn more about City Chemical LLC.

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Silver Lactate - Cas No. 128-00-7

Silver lactate - Cas. 128-00-7 is the silver salt of lactate. Often used sed as antimicrobial agent. This is due to the effect of silver ion in killing bacteria via inhibiting respiratory pathway, impairing essential enzymes, destroying cell wall, obstructing metabolic activity and/or cause DNA stress. Its application in the treatment of thermal burn has been reported, thus being made into cream. Learn more about City Chemical LLC.

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Silver Iodide - Cas No. 7783-96-2

An inorganic compound with the formula Agl, Silver Iodide - Cas No. 7783-96-2 is a bright yellow powder, insoluble in water. AgI is light sensitive and should be stored in a dark dry environment. Silver Iodide is used in cloud seeding to produce artificial rain. Learn more about City Chemical LLC.

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Silver Arsenate - Cas No. 13510-44-6

Silver arsenate (CAS 13510-44-6) is an inorganic compound with the formula Ag 3 AsO 4. It is the silver salt of arsenate. Silver Arsenate is used in qualitative analysis to distinguish between phosphate (Ag3PO4 is yellow) and arsenate (V) solutions. A qualitative test for arsenate ion provides the basis for a colorful demonstration of the principles of relative acid strength, solubility product, and effects of pH on solubility. Learn more about City Chemical LLC.

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Silicon Tetrabromide - Cas No. 7789-66-4

Silicon Tetrabromide: Cas No. 7789-66-4 is used to grow thin films of silicon by the chemical vapor deposition method. Pyrolysis of Silicon Tetrabromide followed by treatment with ammonia yields silicon nitride coatings, a hard compound used for ceramics, sealants and the production of many cutting tools. Learn more about City Chemical LLC.

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Silicon Acetate - Cas No. 562-90-3

By a direct photochemical vapor deposition method, Silicon Acetate - Cas No. 562-90-3 is used in the preparation of silicon dioxide thin films. Silicon Acetate is used in the semiconductor industry. It serves as a precursor to supply silicon complexes with monofunctional bidentate Schiff bases. Learn more about City Chemical LLC.

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Hexachlorodisilane (CAS No: 13465-77-5)

Hexachlorodisilane (HCDS) - CAS No: 13465-77-5 is used to grow thin films of Si, SiO2, SiC, Si3N4 by chemical vapor deposition. The advantage to using HCDS is that it can be used at low temperatures; powerful deoxygenating agent; reducing agent; fiber optics, solar energy products; aiding ALD process. Learn more about City Chemical LLC.

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Ferric Benzoate - Cas: 14534-87-3

With certain anti-corrosion properties, Ferric Benzoate can be used as a novel steel corrosion inhibitor pigment for protective paint films. It has been found particularly useful in providing intense, black permanent fingerprint records when used with metal complexing compounds. Also, used in the food and flavor industry. Learn more about City Chemical LLC.

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Ethylenediaminetetraacetic Acid Tetrasodium Salt - Cas No. 13235-36-4

Ethylenediaminetetraacetic Acid Tetrasodium Salt is the salt occurring from the neutralization of ethylenediaminetetraacetic acid with four equivalents of sodium hydroxide (or an equivalent sodium base). It is a white solid that is highly soluble in water. The properties of solutions produced from the anhydrous and hydrated forms are the same, provided they are at the same pH. Learn more about City Chemical LLC.

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Diphenic Acid - Cas. 482-05-3

Diphenic acid is a pharmaceutical intermediate is useful in synthesizing certain dyes. Diphenic Acid has therapeutic properties that have the potential of lowering the risk of chronic diseases, diphenic acid derivatives have attracted great attention. Learn more about City Chemical LLC.

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Dibutyltin Sulfide (Cas No. 4253-22-9)

Dibutyltin Sulfide - Cas No. 4253-22-9 is a sulfide that can be used as a catalytic agent in some polymerization reaction. Dibutyltin sulfide is a catalyst used in polyurethane systems. The high activity properties enable greater hydrolytic stability. Learn more about City Chemical LLC.

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Boron Tribromide - Cas No. 10294-33-4

Boron Tribromide (BBr3) Cas No. 10294-33-4 is a colorless, fuming liquid containing bromine and boron. Boron Tribromide is used in the semiconductor industry as a silicon doping source, it can also be used for preparation of high purity boron and organic boron compounds. Learn more about City Chemical LLC.

source https://www.citychemical.com/boron-tribromide-bbr3.html

Benzyltrichlorosilane - Cas No. 770-10-5

Benyltrichlorosilane (Cas. 770-10-5) is a colorless liquid. Its boiling temperature is 218-220°C and has a density of 1.273 g/mL at 25°C. As a halogenated silane compound, Benzyltrichlorosilane can be used for the treatment of papermaking fibers. As a silane, it can be used for the synthesis of silicon containing organic compounds. Learn more about City Chemical LLC.

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Barium Manganate - CAS. 7787-35-1

Barium Manganate CAS. 7787-35-1 is a dark green powder, insoluble in water and has a specific gravity of 4.85. Barium Manganate (BaMnO4) is an inorganic compound used as an oxidant in organic chemistry. It belongs to a class of compounds known as manganates in which the manganese resides in a +6 oxidation state. Learn more about City Chemical LLC.

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4-Chloro-2-nitrophenol - Cas 89-64-5

4-Chloro-2-nitrophenol CAS No. 89-64-5 is in the family of chloronitrophenols (CNPs). Used to produce Resins, dyes, drugs, and pesticides. In addition, it can be used to produce 2-Amino-4-chloro-phenol. It is a yellow powder, which is insoluble in water, and contains less than 2% moisture. Learn more about City Chemical LLC.

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2,5-Dimethylindole - Cas No. 1196-79-8

2,5-Dimethylindole (Cas: 1196-79-8) is a kind of carbazole-system derived indole compound, which is useful in the manufacturing of perfume. It is also a valuable chemical intermediate. Used in detection devices. It is usually used as reactant in the following reaction: stereoselective synthesis of indolines via palladium-catalyzed asymmetric hydrogenation of unprotected indoles; stereoselective preparation of substituted indoles via rhodium-catalyzed enantioselective coupling reaction of indoles with diazo compounds. Learn more about City Chemical LLC.

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2,5-Dimethylindole - Cas No. 1196-79-8

2,5-Dimethylindole (Cas: 1196-79-8) is a kind of carbazole-system derived indole compound, which is useful in the manufacturing of perfume. It is also a valuable chemical intermediate. Used in detection devices. It is usually used as reactant in the following reaction: stereoselective synthesis of indolines via palladium-catalyzed asymmetric hydrogenation of unprotected indoles; stereoselective preparation of substituted indoles via rhodium-catalyzed enantioselective coupling reaction of indoles with diazo compounds. Learn more about City Chemical LLC.

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Chemical Properties of Tantalum Ethoxide - Cas: 6074-84-6

Tantalum(V) ethoxide (Cas: 6074-84-6) is a metalorganic compound with formula Ta2(OC2H5)10, often abbreviated as Ta2(OEt)10. It is a colorless solid that dissolves in some organic solvents but hydrolyzes readily. It is used in semiconductor coatings, oxide films, and thin film optical applications. The Tantalum ethoxide precursor is used to deposit ultra-thin films of Tantalum oxide and other tantalum containing films by atomic layer deposition (ALD) and chemical vapor deposition (CVD) methods. Learn more about City Chemical LLC.

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Various Usage of Patina Chemicals

A patina is a colorization effect formed on copper, bronze, brass or other metal by natural weathering or by artificial treatment with chemicals. Patina Chemicals are chemicals used by metal artists to create different colored patinas. Patinas can provide a protective covering to materials that would otherwise be damaged by corrosion or weathering. They may also be visually appealing. On metal, patina is a coating of various chemical compounds such as oxides, carbonates, sulfides, or sulfates formed on the surface during exposure to atmospheric elements, a familiar example of which is rust which forms on iron or steel when exposed to oxygen. Learn more about City Chemical LLC.

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The Importance of Electronic Chemicals

Electronic chemicals are used in the manufacturing and packaging of electronic devices, such as semiconductors, integrated circuits, printed circuit boards, flat panel displays, solar cells, and many more. The increase in consumers demand for compact and more efficient electronic products performing with advanced technologies has increased the reaserch and development in this field. Learn more about City Chemical LLC.

source https://www.citychemical.com/electronic-chemicals.html

What are CVD & ALD Precursors?

Chemical vapor deposition (CVD) is a vacuum deposition method used to manufacture high quality, high-performance, solid materials. The process is frequently used in the semiconductor industry to produce thin films. Atomic layer deposition (ALD) is a thin-film deposition technique based on the consecutive use of a gas phase chemical process. The major part of ALD reactions use two chemicals called precursors. These precursors react with the surface of a material one at a time in a sequential, self-limiting, manner. Learn more about City Chemical LLC.

source https://www.citychemical.com/chemical-vapor-deposition.html

Zinc Silicofluoride (16871-71-9)

Zinc Silicofluoride (Cas. 16871-71-9) is a white to off-white crystalline, sand-like powder. It is used in the ceramic industry for glazing, hardener in specialty concrete mixtures, plaster enhancer, a catalyst for the production of polyester fibers, and a mothproofing agent for textiles. In addition, it can function as a cleaner of stone, brick, concrete, and other constructional material by mixing zinc fluosilicate with other chemicals and making a pasty mixture. Readily soluble in water. Learn more about City Chemical LLC.

source https://www.citychemical.com/zinc-silicofluoride.html

Tubocurarine Chloride (57-94-3)

Tubocurarine Chloride (57-94-3) is an alkaloid used in anesthesia for skeletal muscle relaxation during mechanical ventilation or surgery. It has a white to light-tan crystalline appearance and is odorless. It is soluble in water and alcohol; insoluble in acetone, chloroform, and ether. Mainly used in Research and Development. Learn more about City Chemical LLC.

source https://www.citychemical.com/tubocurarine-chloride.html

Triethylsilane (617-86-7)

Triethylsilane (Cas. 617-86-7) is the organometallic compound containing carbon–silicon bonds and has the formula (C2H5)3SiH. It is a trialkylsilicon hydride compound. The Si-H bond is highly reactive. This colorless liquid is used in chemical synthesis and is concerned with the intentional construction of organic compounds. It is used as a reducing agent and as a precursor to silyl ethers. Learn more about City Chemical LLC.

source https://www.citychemical.com/triethylsilane.html

Tetraethylgermanium (597-63-7)

Tetraethylgermanium - Cas. 597-63-7 is a compound used as a precursor for germanium dioxide chemical vapor deposition in the microelectronics industry, useful in the manufacturing of semiconductor films. Also, utilized in solar panel applications and for increasing the life of battery storage TEG is also utilized in infrared optical devices, telephone lines and computer cables. Learn more about City Chemical LLC.

source https://www.citychemical.com/tetraethylgermanium.html

Cobalt Carbonyl (10210-68-1)

Dicobalt octacarbonyl is the organometallic compound with composition Co2(CO)8. This metal carbonyl is used as a reagent and catalyst in organometallic chemistry and organic synthesis, and is key to much known organocobalt chemistry. It is the precursor to a hydroformylation catalyst, cobalt tetracarbonyl hydride. As a catalyst in organic synthesis and organometallic chemistry, Cobalt Carbonyl (10210-68-1) is a versatile reagent. It is commonly used as a catalyst in the hydroformylation (oxo reaction) of alkenes. It can also be used as a catalyst in the carboxylation of alkenes into corresponding esters and acids. Learn more about City Chemical LLC.

source https://www.citychemical.com/cobalt-carbonyl.html

Clerici Solution - Cas. 61971-47-9

Clerici solution - Cas. 61971-47-9 is a clear pale yellow liquid, density 3.5 @25C. Clerici solution is an aqueous solution prepared from equal parts Thallium Formate & Thallium Malonate. Clerici Solution is important in mineralogy, it is used to separate minerals by density. Floatation in Clerici solution for density measuring is one of the most effective methods in the determination of the specific gravity of precious minerals. Learn more about City Chemical LLC.

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Cerium Molybdate (CAS 13454-70-1)

From the cerium salt form of molybdate, Cerous Molybdate is primarily used in the coatings and aerospace industries. Cerous Molybdate (CAS 13454-70-1) nanowires can be used for active corrosion protection of aluminum alloys. In epoxy coated aluminum alloys, its containers have the potential to advance the corrosion performance. Cerium molybdate may also be a favorable cation exchanger, displaying little shift in its sorption behavior and infrared spectra after gamma irradiation; it is chemically stable and is relatively resistant towards heat. Learn more about City Chemical LLC.

source https://www.citychemical.com/cerous-molybdate.html

Barium Cyanide (542-62-1)

Barium cyanide (Ba(CN)2) is a white crystalline powder, soluble in water and alcohol. It is synthesized by the reaction of hydrogen cyanide and barium hydroxide in water or petroleum ether. This white crystal reacts with water and carbon dioxide in air slowly, producing highly toxic hydrogen cyanide gas. Toxic by skin absorption through open wounds, by ingestion, and by inhalation of hydrogen cyanide from decomposition. Toxic oxides of nitrogen are produced in fires involving this material. Barium Cyanide (542-62-1) is used in metallurgy and electroplating. Learn more about City Chemical LLC.

source https://www.citychemical.com/barium-cyanide.html

Ammonium Fluoride (Cas. No. 12125-01-8)

In the form of a white crystalline solid, Ammonium Fluoride (CAS. 12125-01-8) is extremely water soluble and noncombustible. Used in the electronic industry for producing components. Used in metal processing and oil well acidification. Ammonium Fluoride is active in a new hydrothermal synthesis of complex fluorides NaHoF4 and NaEuF4. These interesting compounds are important for solid-state lasers as well as for photoluminescence and magnetic properties. Can be corrosive to aluminum. Also used in brewing, chemical analysis, and as a preservative for wood. Learn more about City Chemical LLC.

source https://www.citychemical.com/ammonium-fluoride.html

Ammonium Iodide (12027-06-4)

Ammonium Iodide - 12027-06-4 is used in photography, medicinal applications, Iodide formulations. Ammonium Iodide is a white crystalline and can be made in lab by reacting ammonia or ammonium hydroxide with hydroiodic acid or hydrogen iodide gas. It gradually turns yellow on standing in moist air, owing to decomposition with liberation of iodine. Ammonium iodide decomposes quickly when mixed with plain collodion, releasing iodine. This odorless solid is soluble in water and alcohol. Learn more about City Chemical LLC.

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Primuline (8064-60-6)

Primuline (8064-60-6) is an organic sodium salt, a dye containing the benzothiazole ring system and also known as Primuline yellow. It is a mixture of sodium salts and probably contains at least three thiazole rings in combination. Primuline is usually available as a sodium salt and is fluorescent. It is used as a reagent in the preparation of lipids for chloroplast lipid membrane. It is also used as a dye in preparative thin-layer chromatography (TLC). Primuline is suitable for vital staining and is used as a fluorochrome in plant tissues. It is also used to stain lignified cell walls and pollen grains. Learn more about City Chemical LLC.

source https://www.citychemical.com/primuline.html

Potassium Manganate (CAS 10294-64-1)

Potassium manganate (CAS 10294-64-1) is the inorganic compound with the formula K2MnO4. It is a green-colored salt and is an intermediate in the industrial synthesis of potassium permanganate (KMnO4), a common chemical. At times, potassium manganate and potassium permanganate are confused, but they are different compounds with distinctly different properties. Potassium Manganate is used for producing batteries, bleaching skins, fibers, oils; disinfectants; mordant (wool); photography; printing; source of oxygen (dyeing); water purification. Learn more about City Chemical LLC.

source https://www.citychemical.com/potassium-manganate.html

Molybdenum Dichloride Dioxide - 13637-68-8

Molybdenum Dichloride Dioxide (Cas. 13637-68-8) is an inorganic compound with the formula MoO2Cl2 used as a precursor to other molybdenum compounds. Recently MoO2Cl2 has been used in the semiconductor industry. It is much less toxic than typical heavy metals and has found use as an alternative substitute for some heavy metals. It has also found application in materials like corrosion inhibitors, lubricants, fertilizers, smoke suppressants, and pigments. Learn more about City Chemical LLC.

source https://www.citychemical.com/molybdenum-vi-dichloride-dioxide.html

Lead Thiocyanate (592-87-0)

Lead Thiocyanate (CAS. 592-87-0) is a compound, more precisely a salt, with the formula Pb(SCN)2. It is a white to off-white crystalline powder that is slightly soluble in water, but will turn yellow upon exposure to light. It can be converted to a basic salt when boiled. Salt crystals may form upon cooling. Lead thiocyanate can cause lead poisoning if ingested and can adversely react with many substances. It has use in small explosives, matches, and dyeing. Learn more about City Chemical LLC.

source https://www.citychemical.com/lead-thiocyanate.html

Dichlorophene (97-23-4)

Used as a fungicide, bactericide and textile preservative. Dichlorophene (CAS. 97-23-4) is used as a veterinary fungicide, anthelmintic, and anti-protozoan, as well as an ingredient in antimicrobial shampoos and soaps. In combination with toluene, it is used for the removal of parasites such as tapeworms and hookworms from dogs and cats. Dichlorophene can also be used as a growth regulator in containerized seedlings of pine and spruce to regulate plant growth. Learn more about City Chemical LLC.

source https://www.citychemical.com/dichlorophene.html

Diethylsilane (542-91-6)

Diethylsilane (542-91-6) is a reagent used in the chemical vapor deposition (CVD) of SiO2 for microelectronics. It is also used as a precursor to develop (3-allylsulfanyl-propyl)-diethyl-silane by employing (Ph3P)3RhCl reagent. In addition, it can be used as a reductant in catalytic reduction of secondary amides to imines and secondary amines has been achieved using readily available iridium catalysts such as [Ir(COE)2Cl]2. This system requires low catalyst loading and shows high efficiency and an appreciable level of functional group tolerance. As a reduction agent, it also be used to convert polycarboxylic acids into their corresponding alkanes. Learn more about City Chemical LLC.

source https://www.citychemical.com/diethylsilane-d1889.html

3,3-Dimethylnaphthidine (CAS. 13138-48-2)

3, 3-Dimethylnaphthidine (Cas. No. 13138-48-2) is a polycyclic aromatic hydrocarbon, being one kind of dimethylnaphthidine isomers. It is an effective indicator for metal titration (for example, the titration of aluminum using EDTA method, determination of vanadium). Also, it has been used for the photometric determination of small amount of oxygen as well as chlorine in water. Used in environmental test kits. Learn more about City Chemical LLC.

source https://www.citychemical.com/3-3-dimethylnaphthidine.html

DL-Iso-Citric Acid triSodium Salt (1637-73-6)

DL-Iso-Citric Acid Trisodium Salt (CAS 1637-73-6) is a white crystalline powder, readily soluble in water as a clear colorless solution. Used as a laboratory reagent, DL-iso-citric acid trisodium salt is the trisodium salt of isocitric acid. Isocitric acid is the isomer of citric acid. The isocitric acid is an essential substrate in the central metabolic pathway, citric acid cycle (TCA cycle) inside organisms. Since it is an organic acid found in most fruit juices, it is commonly used as a marker to evaluate the authenticity and quality of fruit products, most often citrus juices in food industry. Learn more about City Chemical LLC.

source https://www.citychemical.com/dl-iso-citric-acid-trisodium-salt.html

Aluminum Fluoride - CAS. 7784-18-1

In the form of a white powder, Aluminum Fluoride (CAS. 7784-18-1) occurs naturally as minerals rosenbergite and oskarssonite. It can also be processed synthetically. In the industrial production of aluminum, Aluminum Fluoride is one of the most essential additives. Anhydrous AlF3 is used in the production of aluminum metal. Aluminum Fluoride, Anhydrous is a necessary additive for the manufacture of aluminum by electrolysis. Together with cryolite, it drops the melting point to below 1000 °C and boosts the conductivity of the solution. It is into this molten salt that aluminum oxide is dissolved and then electrolyzed to give bulk Al metal. Learn more about City Chemical LLC.

source https://www.citychemical.com/aluminum-fluoride.html

Aluminum Citrate (CAS. 31142-56-0)

Aluminum Citrate - CAS. 31142-56-0 is the product of mixing a solution containing an aluminum-chloride compound with an aqueous solution comprising citrate. It is used to crosslink water-soluble polymer in solution for the purpose of restricting water flow in subterranean formations. The resultant aluminum citrate solution may be used either as a liquid or dried prior to shipping and using at a remote location. Learn more about City Chemical LLC.

source https://www.citychemical.com/aluminum-citrate.html

Triethylsilane (617-86-7)

Triethylsilane (Cas. 617-86-7) is the organometallic compound containing carbon–silicon bonds and has the formula (C2H5)3SiH. It is a trialkylsilicon hydride compound. The Si-H bond is highly reactive. This colorless liquid is used in chemical synthesis and is concerned with the intentional construction of organic compounds. It is used as a reducing agent and as a precursor to silyl ethers. Learn more about City Chemical LLC.

source https://www.citychemical.com/triethylsilane.html

Silver Nitrate (CAS. 7761-88-8)

Silver Nitrate (CAS. No. 7761-88-8) is a chemical compound that lacks carbon–hydrogen bonds and has a chemical formula of AgNO3. This inorganic compound is a versatile precursor to many other silver compounds, such as those used in photography. It is far less sensitive to light than the halides. In solid silver nitrate, the silver ions are three-coordinated in a trigonal planar arrangement. Silver nitrate is used in many ways in organic synthesis, such as for deprotection and oxidations. Learn more about City Chemical LLC.

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Quininic Acid (86-68-0)

Quinic acid (Cas. 86-68-0) is a colorless solid that can be extracted from plant sources. It is a cyclitol, a cyclic polyol, and a cyclohexanecarboxylic acid. Quinic acid is implicated in the perceived acidity of coffee. Quinic acid is used as an astringent and it is a building block in the preparation of the treatment of influenza A and B strains called Tamiflu. This acid is a versatile chiral starting material for the synthesis of pharmaceuticals. Learn more about City Chemical LLC.

source https://www.citychemical.com/quininic-acid.html

Nickel Monoxide (1313-99-1)

Nickel Monoxide (also known as nickel oxide) is the chemical compound with the formula NiO. It is notable as being the only well-characterized oxide of nickel. The mineralogical form of NiO, bunsenite, is very rare. It is classified as a basic metal oxide. Several million kilograms are produced in varying quality annually, mainly as an intermediate in the production of nickel alloys. Nickel monoxide (Cas. 1313-99-1) reacts with acids to form nickel salts and soaps, and mixtures of nickel monoxide and barium oxide react violently with iodine and hydrogen sulfide in air. Learn more about City Chemical LLC.

source https://www.citychemical.com/nickel-monoxide.html

Lead Iodide (Cas. 10101-63-0)

Lead iodide - Cas. 10101-63-0 is a salt with the formula PbI2. At room temperature, it is a bright yellow heavy odorless powder, that becomes orange and red when heated. It is typically used in photography, medicine, printing, mosaic gold, and bronzing. The compound also has a few specialized applications, such as the manufacture of solar cells, x-ray and gamma-ray detectors. Its used as a precursor material in the fabrication of highly efficient solar cells. Its used as a high-energy photon detector for gamma-rays and x-rays, due to its wide band gap which ensures low noise operation. Learn more about City Chemical LLC.

source https://www.citychemical.com/lead-iodide.html

Hexamethylditin (661-69-8)

Hexamethylditin (661-69-8) is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. It is used to prepare aryl tin compounds for microwave-assisted Stille cross-coupling with halo pyridines or copper-mediated O-arylation of phenols. It is air sensitive and should be kept away from oxidizing agents, heat and air. Best stored under inert gas. Learn more about City Chemical LLC.

source https://www.citychemical.com/hexamethylditin.html

D-Glucosamine (Cas. No. 3416-24-8)

D-glucosamine - 3416-24-8 is an amino sugar found in the fluid around the joints and in connective tissue. It is made naturally in the form of glucosamine-6-phosphate, and is the biochemical precursor of all nitrogen-containing sugars. Taking it as a supplement can help relieve discomfort of joint degeneration, like in the case of arthritis. It can even help prevent arthritis from getting worse. Supplements come in a number of forms, including powders. They are available alone or combined with other compounds. D-glucosamine is manufactured in several forms including D-glucosamine sulfate and D-glucosamine HCL. Learn more about City Chemical LLC.

source https://www.citychemical.com/d-glucosamine.html