Metal Salts

In this section, you can find various metal salts, which are compounds characterized by containing both metal and non-metal atoms. Essentially, metal salts are composed of cations that are one or more metal atoms. These salts play a crucial role in numerous chemical reactions and applications, serving as catalysts, reactants, or intermediates in various industrial and research processes. At CymitQuimica, we offer a wide selection of high-quality metal salts to meet your research and industrial needs, ensuring reliable and effective performance in your applications.

Sodium dicyanamide

CAS:

• 1934-75-4

Sodium dicyanamide is a diphenyl ether that has been shown to be effective in the treatment of polycystic ovarian syndrome. It binds to picolinic acid, which is a cofactor for the enzyme phenylalanine hydroxylase, and inhibits the production of tyrosine. This leads to an increase in the levels of luteinizing hormone and follicle-stimulating hormone, which helps ovulation. Sodium dicyanamide also interacts with hydrogen bond interactions and chelate ligands. The reaction mechanism of this compound is not well understood, but it is known that it can react with oxygen at high temperatures.

Formula: C₂N₃Na

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 89.03 g/mol

Sodium phosphate

CAS:

• 7601-54-9

Sodium phosphate is a solution of sodium ions and phosphate ions in water. It is used as an electrolyte, as an additive to processed food, and in the treatment of infectious diseases. Sodium phosphate is also used to produce polyphosphates that are used in many industrial applications. The dissolution of sodium phosphate starts with the release of hydrogen fluoride (HF). This reaction can be monitored using microdialysis probes inserted into the reaction solution. The dissociation of this compound can be studied using electrochemical impedance spectroscopy. In human serum, sodium phosphate inhibits the growth of bacteria by forming a complex with the sodium ion and preventing their absorption in the bloodstream.

Formula: Na·PO₄

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 163.94 g/mol

Copper(II) stearate

CAS:

• 660-60-6

Copper(II) stearate is an inorganic compound that consists of copper chloride and stearic acid. It has a reactive functional group, a copper complex, and a metal-metal bond. Copper(II) stearate is used as an ingredient in cosmetics to enhance the color stability of pigments, such as iron oxides, titanium dioxide, and zinc oxide. The particle size of the compound can be adjusted by controlling the ratio of copper chloride to stearic acid. Copper(II) stearate has been shown to have good chemical stability at high temperatures and is not affected by boron nitride or calcium stearate. Activation energies for the formation of copper(II) stearate are found at about -4.8 kJ/mol for copper chloride and about -5.6 kJ/mol for stearic acid. It also exhibits electrochemical impedance spectroscopy properties with a higher resistance than other metal salts with similar functional groups

Formula: C₃₆H₇₀CuO₄

Purity: Min. 95%

Molecular weight: 630.48 g/mol

Sodium 1-naphthalenesulfonate

CAS:

• 130-14-3

Sodium 1-naphthalenesulfonate is a zirconium oxide that is used to remove particles from water. It has been shown that the adsorption mechanism of this compound is based on its crystalline polymorphs. Sodium 1-naphthalenesulfonate has been used in the treatment of fatty acid and hydrochloric acid in urine samples, with sodium carbonate as a buffer. This compound also has film-forming properties, which are beneficial for wastewater treatment and can be used in the formation of polymer films. Sodium 1-naphthalenesulfonate also shows toxicity at high concentrations, but does not cause any toxic effects at low concentrations.

Formula: C₁₀H₇NaO₃S

Purity: Min. 95%

Color and Shape: White Off-White Powder

Molecular weight: 230.22 g/mol

Indium - 99.999% trace metals basis

CAS:

• 7440-74-6

Indium-99.999% trace metals basis is a radioactive metal whose atomic number is 49, and it is the heaviest element in Group 3 of the periodic table. Indium-99.999% trace metals basis can be used in the treatment of bowel disease, such as inflammatory bowel disease (IBD) and Crohn's disease. It may also be used to diagnose other diseases that are not visible through medical imaging techniques, such as cancer or inflammatory diseases of the bowel. It can be used to measure cell nuclei and nuclear DNA for disease activity, or identify response elements for autologous stem-cell transplantation. It has been shown that this metal can cause long-term toxicity to cells when combined with injury models. This toxicity may be due to its coordination geometry, which causes a disruption in electron flow during oxidation reactions.

Formula: In

Purity: Min. 95%

Molecular weight: 114.82 g/mol

Lithium ionophore VI

CAS:

• 106868-21-7

Lithium ionophore VI is a polyvinyl chloride that contains valinomycin, a metal ion, and an organic solvent. It is used in pharmaceutical formulations as an ionophore. Lithium ionophore VI has been shown to have membrane potential-dependent transfer reactions in human serum and with the use of hydrophobic organic solvents such as chloroform and acetone. This compound can be used for calibration of analytical chemistry instruments by using it as a standard for the pH value of solutions.

Formula: C₂₄H₃₂O₄

Purity: Min. 95%

Molecular weight: 384.51 g/mol

Iron oxide black

Controlled Product

CAS:

• 12227-89-3

Iron oxide black is a reactive dye that is used in wastewater treatment. It is an oxide of iron that can be synthesized from sodium carbonate and langmuir adsorption isotherm. Iron oxide black has been shown to have a colloidal gold-like color, chemical stability, and constant pressure. The particle size of this compound ranges from 10-1000 nm and it reacts with a solution containing anhydrous sodium carbonate to form magnetite nanoparticles. Iron oxide black also has an asymmetric synthesis reaction with ferric chloride and nitric acid, which produces magnetic nanoparticles.

Formula: Fe₃O₄

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 231.53 g/mol

5,5-Diphenylhydantoin sodium

Controlled Product

CAS:

• 630-93-3

5,5-Diphenylhydantoin sodium salt is an anticonvulsant drug that belongs to the class of diphenylhydantoins. This drug has been shown to have a number of clinical effects, including cardiac effects, hypersensitivity syndrome, and eosinophilic fasciitis. It also has been shown to be associated with drug interactions and toxic epidermal necrolysis. 5,5-Diphenylhydantoin sodium salt is used in the treatment of epilepsy and neuropathic pain. The mechanism of action for this drug has been shown to be due to its ability to inhibit the release of acetylcholine from nerve terminals by blocking voltage-sensitive sodium channels. 5,5-Diphenylhydantoin sodium salt can also cause fetal bovine serum disease when administered intravenously or intramuscularly in pregnant animals. It also causes experimental carcinogenic potential in laboratory animals.br>

Formula: C₁₅H₁₂N₂O₂•Na

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 275.26 g/mol

Pamidronate disodium pentahydrate

CAS:

• 109552-15-0

Farnesyl diphosphate synthase inhibitor

Formula: C₃H₁₉NNa₂O₁₂P₂

Purity: Min. 95%

Molecular weight: 369.11 g/mol

Sodium methylarsonate - 50% aqueous solution

CAS:

• 2163-80-6

Sodium methylarsonate is a monosodium salt of the hydroxypicolinic acid. It is an experimental model for studies on polymerase chain reaction (PCR) and has been shown to have significant cytotoxicity in vitro. The toxicological profile of this substance has been studied in rodents, where it was found to have a low toxicity level. Sodium methylarsonate was found to be carcinogenic in mice and rats, but not in hamsters. Picolinic acid, which is produced by the metabolic activation of sodium methylarsonate, may be responsible for its carcinogenic properties. The analytical method used for this substance is high-pressure liquid chromatography with mass spectrometry detection.

Formula: CH₄AsNaO₃

Purity: Min. 95%

Color and Shape: Clear Liquid

Molecular weight: 161.95 g/mol

Sodium phosphate dibasic dodecahydrate

CAS:

• 10039-32-4

Sodium phosphate dibasic dodecahydrate is a sodium salt that has been used in analytical chemistry, water treatment, and as a buffering agent. It is also used as a synergistic agent with other sodium salts to increase their bioavailability. This substance has been studied extensively for its effects on cancer tissues and has shown promise in inhibiting the growth of cancer cells. Sodium phosphate dibasic dodecahydrate is not very soluble in water but is highly permeable through human serum membranes. It can be administered orally or intravenously and will have different effects depending on the route of administration.

Formula: H₃PO₄·Na₂·12H₂O

Purity: Min. 95%

Molecular weight: 358.14 g/mol

Gold(III) hydroxide

CAS:

• 1303-52-2

Gold(III) hydroxide is a yellow solid that is soluble in acidic and alkaline solutions. It can be prepared by the reaction of gold(III) nitrate with sodium hydroxide, or by the reaction of hydrochloric acid with sodium chloride and ferrous sulfate. Gold hydroxide can be used in a number of techniques such as nature, hydrolysis, synthons, and high yield. Gold hydroxide has been shown to have luminescent properties when mixed with nitrate. The synthesis of gold nanoparticles is also possible using gold hydroxide at temperatures below 100°C. The yields for this process are variable depending on the conditions used, but it has been shown to produce approximately 10% of the theoretical yield. Gold hydroxide will react with deionized water to form a gel-like substance, which is due to its interaction with water molecules. This compound also has nucleation properties that allow it to act as an initiator for

Formula: AuH₃O₃

Purity: Min. 95%

Molecular weight: 247.99 g/mol

Aluminum magnesium silicate

CAS:

• 1327-43-1

Magnesium aluminum silicate is a film-forming polymer that can be used in the formulation of skin care products, such as sunscreens. It has been shown to have a thermal expansion coefficient similar to that of human skin and also prevents moisture loss by forming a protective barrier on the surface of the skin. Magnesium aluminum silicate also possesses antioxidant properties and has been shown to inhibit tyrosinase activity in analytical chemistry experiments. This polymer is soluble in water, but is not soluble in organic solvents such as ethanol or acetone. The water solubility can be increased by adding an alkylthio group. Magnesium aluminum silicate is insoluble in water at room temperature and must be heated up to 200°C for dissolution. The viscosity of magnesium aluminum silicate increases with increasing concentration and reaches a maximum at about 2% concentration. This polymer shows uptake of water vapor and will form a gel when exposed to high humidity environments, which makes it useful as

Formula: AlMgO₃Si

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 127.37 g/mol

Iron(II) tetrafluoroborate - 40-45% aqueous solution

CAS:

• 15283-51-9

Iron(II) tetrafluoroborate is a green-yellow crystalline solid that is soluble in water. It has been shown to have structural and optical properties that are similar to those of ferric chloride, but with the advantage of being less toxic. Iron(II) tetrafluoroborate is used as a homogeneous catalyst for organic reactions such as the hydrogenation of nitroarenes and the reduction of ketones. The catalytic activity of Iron(II) tetrafluoroborate arises from its ability to form hydrogen bonding interactions with other molecules and ions in solution.
Iron(II) tetrafluoroborate undergoes a number of reactions with other compounds, including cleavage products such as hydrogen sulfate and nitrogen atoms, which may be due to its chelate ligand. In coordination chemistry, Iron(II) tetrafluoroborate can form coordination complexes by reacting with potassium dichromate or calcium carbonate. These complexes are

Formula: B₂F₈Fe

Purity: About 45%

Color and Shape: Slightly Green Clear Liquid

Molecular weight: 229.45 g/mol

Aluminumoxide - Partical size 40-50nm

CAS:

• 1344-28-1

Aluminum oxide is a non-toxic, inert solid that is used as a catalyst in the production of polymers and plastics. Aluminum oxide is also used for wastewater treatment, as it has high chemical stability. It can be used to remove pollutants such as hydrogen fluoride, hydrochloric acid and heavy metals from water. The particle size of aluminum oxide ranges from 40-50nm. The phase transition temperature of aluminum oxide is typically at 1,000°C which makes it suitable for use in industrial processes with high temperatures. Aluminum oxide has been shown to reduce inflammation, inhibit angiogenesis and increase vascular permeability in inflammatory diseases such as rheumatoid arthritis and asthma. Alumina can also induce apoptosis in cancer cells by disrupting their cell membranes.

Formula: Al₂O₃

Purity: Min. 95%

Color and Shape: White Solid

Molecular weight: 101.96 g/mol

Dipotassium hydrogen phosphate trihydrate

CAS:

• 16788-57-1

Please enquire for more information about Dipotassium hydrogen phosphate trihydrate including the price, delivery time and more detailed product information at the technical inquiry form on this page

Formula: K₂HPO₄•(H₂O)₃

Molecular weight: 228.22 g/mol

Iron(III) sulfate hydrate

CAS:

• 15244-10-7

Iron(III) sulfate hydrate is a chemical compound that is used as a coagulant in wastewater treatment. It reacts with hydrogen ions to form ferric hydroxides, which are insoluble and settle out of the water. Iron sulfate also has been used to identify the presence of bacteria in histological preparations by staining. The optimum concentration for this reaction is 1%. The reaction mechanism for this process is not known and it is difficult to determine the optimal pH range because it depends on the type of bacteria being studied. Iron(III) sulfate hydrate has a carcinogenic potential, but this risk can be minimized by adding an acidic substance such as caproic acid or citric acid to the solution. Iron(III) sulfate hydrate also has been shown to have nutrient-rich properties and can be used as a nutrient solution in conditions where other nutrients are unavailable. When heated, iron sulfate undergoes a redox reaction, producing water vapor and fer

Formula: Fe₂(SO₄)₃•(H₂O)x

Purity: Min. 95%

Color and Shape: Off-White To Yellow To Beige Solid

Molecular weight: 399.88 g/mol

Sodium potassium tartrate tetrahydrate

CAS:

• 6381-59-5

Sodium potassium tartrate tetrahydrate is a crystal compound made up of potassium and sodium. It is a ferroelectric material that exhibits polarization and piezoelectric properties. The growth rate of these crystals can be controlled by using inhibitors such as protein kinase inhibitors. Sodium potassium tartrate tetrahydrate has been shown to have inhibitory activity against certain enzymes, including proteases and kinases. Additionally, it exhibits dielectric properties and can be used in the production of capacitors and other electronic components.

Formula: C₄H₄KNaO₆·4H₂O

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 282.22 g/mol

Zinc bromide dihydrate

CAS:

• 18921-13-6

Zinc bromide dihydrate is a crystalline compound that is used as a catalyst for the conversion of metalloporphyrins to hydroporphyrins. This process is used in the production of vitamin B12. Zinc bromide dihydrate can also be used to inhibit the function of ion pumps, which are proteins that pump ions across membranes. The inhibition of these pumps may lead to a decrease in intracellular calcium levels and an increase in free radicals.
Zinc bromide dihydrate has been shown to react with chlorophylls, vinylated heterostructures, and polyvinyl nonmetals. These reactions produce morphology changes in zinc bromide dihydrate crystals

Formula: ZnBr₂•2H₂O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 261.22 g/mol

Tin(IV) oxide

CAS:

• 18282-10-5

Tin(IV) oxide is a chemical compound that can be used in the treatment of cancer. It is a white powder with a low melting point and is soluble in water, alcohols, and ethers. Tin(IV) oxide has been used as an additive to microscopy techniques to improve contrast. The compound has also been shown to have anticancer properties by inhibiting the growth of cancer cells. Tin(IV) oxide blocks the formation of chalcones, which are products that are formed when reactions between hydrochloric acid and aluminium take place at high temperatures. This blockage prevents the formation of hydrogen gas, thereby preventing cell death due to dehydration or exposure to infrared radiation from heat sources such as microwaves or lasers. Tin(IV) oxide also has been used in infrared spectroscopy for its ability to produce a characteristic absorption band at 3690 cm-1 and as an alternative material for the production of semiconductors when producing thin films.

Formula: SnO₂

Purity: 95%Nmr

Color and Shape: Off-White To Grey Solid

Molecular weight: 150.71 g/mol