110882-60-5Relevant articles and documents
Process for fluorinating inorganic or organic compounds by direct fluorination
-
Paragraph 0331-0335, (2020/07/14)
The invention relates to the use of a fluorinated gas, wherein the elemental fluorine (F2) is present at a high concentration, the present invention relates to a process for producing fluorinated compounds by direct fluorination using a fluorination gas in which elemental fluorine (F2) is present at a high concentration, such as a concentration of elemental fluorine (F2), in particular equal to much higher than 15 vol% or even 20 vol% (i.e., at least 15 vol% or even 20 vol%), and to a process for producing fluorinated compounds by direct fluorination using a fluorination gas. The process of the present invention relates to the manufacture of fluorinated compounds other than fluorinated benzene by direct fluorination, in particular to the preparation of fluorinated organic compounds, end products and intermediates for use in agricultural, pharmaceutical, electronic, catalyst, solvent and other functional chemical applications. The fluorination process of the invention can be carried outin batches or in a continuous manner. If the process of the invention is carried out in batches, a column (tower) reactor may be used. If the process of the invention is continuous, a microreactor may be used.
Elemental fluorine. Part 20. Direct fluorination of deactivated aromatic systems using microreactor techniques
Chambers, Richard D.,Fox, Mark A.,Sandford, Graham,Trmcic, Jelena,Goeta, Andres
, p. 29 - 33 (2008/03/13)
Continuous flow microreactor technology has been used for the direct fluorination of a range of deactivated di- and tri-substituted aromatic systems.
CERTAIN CHEMICAL ENTITIES, COMPOSITIONS AND METHODS
-
Page/Page column 40, (2010/11/27)
Certain substituted urea derivatives selectively modulate the cardiac sarcomere, for example by potentiating cardiac myosin, and are useful in the treatment of systolic heart failure including congestive heart failure.