7789-27-7

Basic information

• Product Name: THALLIUM(I) FLUORIDE
• Synonyms: Tallium(Ⅰ) fluoride;Thallium(I)fluoride,99%;Thallium(I) fluoride 99%;TALLIUM() FLUORIDE;THALLIUM FLUORIDE;THALLIUM FLUORIDE (OUS);THALLIUM(I) FLUORIDE;THALLOUS FLUORIDE
• CAS NO: 7789-27-7
• Molecular Formula: FTl
• Molecular Weight: 223.38
• EINECS: 232-154-1
• Product Categories: metal halide
• Mol File: 7789-27-7.mol
• Article Data: 5

Chemical Properties

• Melting Point: 322 °C(lit.)
• Boiling Point: 655 °C
• Flash Point: 655°C
• Appearance: White/Powder
• Density: 8.3 g/mL at 25 °C(lit.)
• Vapor Pressure: 922mmHg at 25°C
• Water Solubility: Very soluble in water
• Merck: 14,9262
• CAS DataBase Reference: THALLIUM(I) FLUORIDE(CAS DataBase Reference)
• NIST Chemistry Reference: THALLIUM(I) FLUORIDE(7789-27-7)
• EPA Substance Registry System: THALLIUM(I) FLUORIDE(7789-27-7)

Safety Data

• Hazard Codes: T+,N,T
• Statements: 26/28-33-51/53
• Safety Statements: 13-28-45-61
• RIDADR: UN 1707 6.1/PG 2
• WGK Germany: 3
• RTECS: XG4900000
• TSCA: T
• HazardClass: 6.1
• PackingGroup: II
• Hazardous Substances Data: 7789-27-7(Hazardous Substances Data)

Usage

Preparation

Thallium fluoride is prepared by reacting thallium carbonate with hydrofluoric acid. Also, the compound can be made by reacting thallium metal with fluorine.

Chemical Properties

white powder(s); ortho-rhomb; hard, shiny crystal(s); can deliquescent, e.g., if breathed upon, however reverts to anhydrous form in dry air; not typically hygroscopic; enthalpy of fusion 14.00kJ/mol [MER06] [STR93] [CRC10]

Physical properties

Hard shiny crystals; orthorhombic structure; density 8.23 g/cm3 at 4°C; melts at 327°C; begins to sublime at 300°C; vaporizes at 655°C; very soluble in water, 78.6 g/100mL at 15°C; decomposes in hot water; slightly soluble in alcohol.

Uses

Different sources of media describe the Uses of 7789-27-7 differently. You can refer to the following data:
1. Thallium(I) fluoride is used as chemical reagents, fine chemicals, pharmaceutical research and development.
2. In the preparation of fluoro esters.

Hazard

Highly toxic (See Thallium).

Safety Profile

Poison by ingestion. When heated to decomposition it emits very toxic fumes of Fand T1. See also THALLIUM COMPOUNDS and FLUORIDES.

InChI:InChI=1/FH.Tl/h1H;/q;+1/p-1

Upstream product

• 75-71-8 Dichlorodifluoromethane 
• 1735-62-2 Bromo-bis-(pentafluorphenyl)-thallium(III) 
• 7783-57-5 thallium(III) fluoride 
• 7637-07-2 boron trifluoride 
• 90623-27-1 thallium pentafluorocyclopentadienide 
• 353-50-4 Carbonyl fluoride 
• 7664-39-3 hydrogen fluoride 
• 1314-97-2 thallium(I) sulfide 
• 21259-75-6 mercury bis(trifluoromethanethiolate) 

Downstream Products

• 638163-61-8 [Tl(μ-F)3Ru(triphenylphosphine)3] 
• 207443-33-2 P(C₆H₅)4⁽¹⁺⁾*[OsF₅(CO)]^(1-)=[P(C₆H₅)4][OsF₅(CO)] 
• 207443-35-4 mer-(Ph₄P)[OsF₃Br₂(CO)] 

Relevant articles and documents

STRUCTURAL AND THERMODYNAMIC ASPECTS OF AN ELECTRON-DIFFRACTION STUDY ON SATURATED THALLIUM MONOFLUORIDE VAPOR

A fresh analysis has been performed on the original electron-diffraction data for saturated thallium monofluoride vapor.The diffraction data have been combined with spectroscopic ones to derive the equilibrium geometry and the complete harmonic force fiel

Polymorphism of Thallium Pentafluorotellurate (IV), TlTeF//5.

A colorimetry study of thallium pentafluorotellurate (IV) indicates a reversible phase transition near 192 K. Powder diffraction analysis has been performed for the high and low-temperature forms. Structural data are: form I (298 K): monoclinic system; a equals 14. 099 angstrom, b equals 6. 510 angstrom c equals 11. 864 angstrom, beta equals 91. 03 degree ; form II (123 K): monoclinic system; a equals 14. 218 angstrom, b equals 8. 825 angstrom, c equals 8. 559 angstrom, beta equals 91. 2 degree . These results are discussed in comparison with the thermodynamic characteristics of the I yields II transition.

Matrix-isolation study of oxide-transfer reactions to halogen-containing Lewis acids: Synthesis of the CO2F22- anion and attempted synthesis of the BF3O2- anion

The oxide-transfer technique has been coupled with matrix isolation in an attempt to synthesize and characterize the BF3O2- and CO2F22- anions, through the reaction of Tl2O with either BF3 or COF2. In the latter experiments, two sets of product bands were observed; one agreed well with the absorptions of the known CO2F- anion. The second set has been assigned to the CO2F22- anion in the matrix-isolated Tl+2CO2F22- triple ion, which rapidly eliminated TlF upon warming to form the Tl+CO2F- anion. Attempts to synthesize the BF3O2- anion in a similar fashion were not successful, suggesting that previous reports of the room-temperature synthesis of this anion are incorrect.