Composés organosiliciés

Dans cette section, vous trouverez un grand nombre de composés organosiliciés. Les composés organosiliciés sont caractérisés par des atomes de carbone liés à des atomes de silicium. D'autres composés non métalliques peuvent également être présents. Ces composés sont largement utilisés en synthèse organique, en science des matériaux et en pharmaceutique en raison de leurs propriétés chimiques uniques. Chez CymitQuimica, nous offrons une large gamme de composés organosiliciés de haute qualité pour soutenir vos recherches et projets industriels.

Tributylborane (1.0 M in THF)

Produit contrôlé

CAS :

• 122-56-5

Applications Tributylborane is a reducing agent used in the controlled radical polymerization of alkyl acrylates.
References Ludin, D. et al.: Russ. Chem. Bill., 65, 1859 (2016); Semenycheva, L. et al.: Russ. J. App. Chem., 89, 1667 (2016);

Formule : C₁₂H₂₇B

Couleur et forme : Single Solution

Masse moléculaire : 182.15

1,2-Bis(hydroxymethyl)-O-carborane

Produit contrôlé

CAS :

• 19610-37-8

1,2-Bis(hydroxymethyl)-O-carborane is a cyclic molecule that can be used in the synthesis of organic compounds. It can be prepared by reacting anhydrous sodium chloride with propiolic acid. It has been shown to produce decaborane and anion when reacted with chlorine. The chlorides are catalytic for the formation of methyl alcohol and methacrylates. 1,2-Bis(hydroxymethyl)-O-carborane has been used as a starting material for the synthesis of triflates and methyl alcohols. This compound has also been found to produce diffraction patterns that can be used for structural analysis.

Formule : C₄H₁₆B₁₀O₂

Degré de pureté : Min. 95%

Masse moléculaire : 204.28 g/mol

Potassium dihydrogen arsenate

CAS :

• 7784-41-0

Potassium dihydrogen arsenate is an inorganic chemical that is used as a pesticide. It prevents the synthesis of proteins by inhibiting soybean trypsin. The optimum concentration for chrysoperla is 1.6 mg/L, which has been shown to be sublethal at levels below 5 mg/L. This chemical has also been shown to have effects on light exposure and thermal expansion. Potassium dihydrogen arsenate belongs to the ferroelectric class of compounds and has a hydrogen bond with water, which may explain its uptake into plants.

Formule : H₂AsKO₄

Degré de pureté : Min. 95%

Masse moléculaire : 180.04 g/mol

Ammonium tetrafluoroborate

CAS :

• 13826-83-0

Ammonium tetrafluoroborate is a salt of the organic compound tetrafluoroborate and ammonium. It is a colorless solid that can be used as a chemical reagent. Ammonium tetrafluoroborate has a higher chemical stability than other salts of tetrafluoroborate, such as ammonium hexafluorophosphate and ammonium hexafluoroarsenate. Ammonium tetrafluoroborate is used to make the dinucleotide phosphate, which is an important component in DNA synthesis. In a redox potential test, ammonium tetrafluoroborate showed no electrochemical activity in water vapor at pH 7. Ammonium tetrafluoroborate reacts with trifluoroacetic acid to produce hydrogen fluoride and ammonium chloride. This reaction is reversible, which means that it can be used for the synthesis of ammonia gas from hydrogen and nitrogen gases or for the

Formule : NH₄BF₄

Degré de pureté : Min. 98%

Couleur et forme : White Powder

Masse moléculaire : 104.84 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

Formule : B₂F₈Fe

Degré de pureté : About 45%

Couleur et forme : Slightly Green Clear Liquid

Masse moléculaire : 229.45 g/mol