17933-03-8Relevant articles and documents
FLUORESCENT COMPOUND AND PREPARATION METHOD AND USE FOR THE SAME
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Paragraph 0086, (2021/12/29)
Disclosed is a fluorescent compound as represented by general formula I, or a salt, an enantiomer, a diastereomer, a tautomer, a solvate or a polymorph thereof, having the structure (I); wherein m and n are each an integer between 0-10; and Y1 and Y2 are each independently selected from the group of hydrogen, phenyl, hydroxyl, carboxyl, an ester group, a boric acid group, a borate group, and a 3 to 7 membered ring substituted with one or more boric acid groups or borate groups, and at least one of Y1 and Y2 is a boron-containing group. The compound has the characteristics of a high fluorescence intensity and a high sensitivity.
Fluorescent compound and preparation method and application thereof
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Paragraph 0102-0103, (2019/10/30)
The invention discloses a fluorescent compound and a preparation method and application thereof. The fluorescent compound is shown in a general formula I, and the structure of the compound of the formula I is as shown in the description of the fluorescent compound, wherein m and n are each independently an integer from 0-10; and Y and Y are each independently selected from a following group:hydrogen, phenyl, hydroxyl, carboxyl, an ester group, a boric acid group, a boric acid ester group and one or more boric acid group or boric acid ester group substituted 3-7 membered rings, and at least one of Y and Y is a boracic group. The fluorescent compound has the characteristics of high fluorescence intensity and high sensitivity.
Magnesium promoted autocatalytic dehydrogenation of amine borane complexes: A reliable, non-cryogenic, scalable access to boronic acids
Marciasini, Ludovic D.,Richard, Jimmy,Cacciuttolo, Bastien,Sartori, Guillaume,Birepinte, Melodie,Chabaud, Laurent,Pinet, Sandra,Pucheault, Mathieu
, p. 164 - 171 (2018/12/05)
Owing to the unusual reactivity of dialkylamine-borane complexes, a methodology was developed to simply access boronic acids. The intrinsic instability of magnesium aminoborohydride was tweaked into a tandem dehydrogenation borylation sequence. Proceeding via an autocatalytic cycle, amineborane dehydrogenation was induced by a variety of Grignard reagents. Overall, addition of the organomagnesium species onto specially designed dialkylamine-borane complexes led to a variety of boronic acids in high yields. In addition, the reaction can be performed under Barbier conditions, on a large scale.