Sodium monofluoride

The fluorine in fluoride toothpaste is in the form of a fluorine compound. One such compound is sodium monofluoride phosphate. The fluorine in the sodium monofluoride phosphate bonds with calcium in tooth enamel and forms a calcium fluoride layer that acts as a bacterial barrier. 

SODIUM MONODODECYL SULFATE see SIB600 SODIUM MONOFLUORIDE see SHF500 SODIUM MONOFLUOROACETATE see SHG500 SODIUM MONOHYDROGEN ARSENATE see ARD500 SODIUM MONOHYDROGEN PHOSPHATE (2 1 1) see SJH090... 

Synonyms/Trade Names Floridine. Sodium monofluoride ... 

Synonyms Sodium fluoride, solid and sol n. Sodium hydrofluoride Sodium monofluoride Classification inorganic salt Empirical FNa Formula NaF... 

Sodium monofluoride. See Sodium fluoride Sodium monofluorophosphate (INCI). See Sodium fluorophosphate (Na2P03p)... 

Sebacic acid, 43, 39 Sebacoyl chloride, 43, 37 2,2 -SebacoyldicycIohexanone, 43, 34 Silver difluoride, reaction with phenyl disulfide, 44, 82 Silver monofluoride, 44, 82 Sodium amide, as catalyst for carbona-tion of methylacetylene, 42, 98 for formation of sodium sodiophenyl-acetate, 40, 38... 

Silicochloroform Silicolluoric Acid Silicon Chloride Silicone Fluids Silicon Tetrachloride Silver Acetate Silver Carbonate Silver Fluoride Silver Iodate Silver Monofluoride Silver Nitrate Silver Oxide Silver Sulfate Silvisar 510 Slaked Lime Slow-Curing Asphalt Sodamide Sodium... 

In concerted E2 eliminations from monofluorides a predominance of Hofmann orientation is observed, as is consistent with a poor leaving group and a transition state with high charge on the /2-carbon atom, that is, orientation is controlled by the relative acidities of the /1-hydrogens.6,7 2-Fluorohexane (1) when treated with sodium methoxide in methanol gives both hex-l-ene and hex-2-cne in yields of 69 and 31 %, respectively.6... 

Pentaalkoxy tellurium monofluorides were formed by fluorination of tctramethoxy tellurium1, by reaction of m-tetramethoxy tellurium difluoride with sodium methoxide in methanol1, by the action of anhydrous hydrogen fluoride on hexamethoxy tellurium2, and by the condensation of primary alcohols with tellurium hexafluoride1. None of these compounds was isolated. Their presence in the reaction mixture was detected by 19F-NMR spectroscopy. 

TIN(II) CHLORIDE (7772-99-8) SnClj A powerful reducing agent. Reacts violently with strong oxidizers, strong alkalis, bromine, bromine trifluoride (ignition), calcium carbide, chlorine, chlorine monofluoride, copper nitrate, ethylene oxide fluorine, hydrogen peroxide, nitrates, potassium, potassium dioxide, sodium, with risk of fire and explosions. Incompatible with calcium acetylide, hydrazine hydrate (forms explosive stannous dihydrazine chloride) metal nitrates. On small fires, use dry chemical powder (such as Purple-K-Powder), alcohol-resistant foam, or COj extinguishers. 

ESTANO (Spanish) (7440-31-5) Finely divided material is combustible and forms explosive mixture with air. Contact with moisture in air forms tin dioxide. Violent reaction with strong acids, strong oxidizers, ammonium perchlorate, ammonium nitrate, bis-o-azido benzoyl peroxide, bromates, bromine, bromine pentafluoride, bromine trifluoride, bromine azide, cadmium, carbon tetrachloride, chlorine, chlorine monofluoride, chlorine nitrate, chlorine pentafluoride, chlorites, copper(II) nitrate, fluorine, hydriodic acid, dimethylarsinic acid, ni-trosyl fluoride, oxygen difluoride, perchlorates, perchloroethylene, potassium dioxide, phosphorus pentoxide, sulfur, sulfur dichloride. Reacts with alkalis, forming flammable hydrogen gas. Incompatible with arsenic compounds, azochloramide, benzene diazonium-4-sulfonate, benzyl chloride, chloric acid, cobalt chloride, copper oxide, 3,3 -dichloro-4,4 -diamin-odiphenylmethane, hexafluorobenzene, hydrazinium nitrate, glicidol, iodine heptafluoride, iodine monochloride, iodine pentafluoride, lead monoxide, mercuric oxide, nitryl fluoride, peroxyformic acid, phosphorus, phosphorus trichloride, tellurium, turpentine, sodium acetylide, sodium peroxide, titanium dioxide. Contact with acetaldehyde may cause polymerization. May form explosive compounds with hexachloroethane, pentachloroethane, picric acid, potassium iodate, potassium peroxide, 2,4,6-trinitrobenzene-1,3,5-triol. 

A Consider the foUowing substances sodium fluoride (NaF), chlorine monofluoride (GIF), hydrogen fluoride (HE), and fluorine (F2). (a) What type of particles does each substance have (b) What type of intermolecular attractive forces hold the particles together in each substance The table below Usts the melting point (mp), boiling point (bp), density (D), and solubility in water of each of these substances. 

Silver lodate Silver Monofluoride Silver Nitrate Silver lodate Silver Fluoride Silver Nitrate Sodium Hexafluorosilicate Sodium Hydride Sodium Silicofluoride Sodium Hydride... 

---