89466-08-0Relevant articles and documents
Method for preparing boric acid derivative (by machine translation)
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Paragraph 0044-0045, (2020/12/29)
The invention provides a preparation method of p-hydroxyphenylboronic acid. The method is characterized by comprising the following -0.1 mpa steps: at 0 - 10 °C vacuum conditions and temperature, heating the alkoxyl phenylboronic acid and acid first chloride compound in organic solvent, then heating the aqueous layer minutes every interval until 10 °C 15 the temperature is raised to, and then 30 - 100 °C carrying out 1 - 2h constant temperature reaction to obtain the intermediate pH. The aqueous layer 9-11 is further recrystallized by organic solvent 3-4 to obtain intermediate compound and second alkali adjusting system pH. 3rd. The p-hydroxyphenylboronic acid is obtained. The method has the advantages that the reaction temperature is relatively mild, the reaction time can be obviously shortened, the consumption of the catalyst is reduced, and the method has higher yield and purity. (by machine translation)
Virtues of Volatility: A Facile Transesterification Approach to Boronic Acids
Hinkes, Stefan P.A.,Klein, Christian D.P.
supporting information, p. 3048 - 3052 (2019/05/10)
Boronic acids are an increasingly important compound class for many applications, including C-C bond formation reactions, medicinal chemistry, and diagnostics. The deprotection of boronic ester intermediates is frequently a problematic and inefficient step in boronic acid syntheses. We describe an approach that highly facilitates this transformation by leveraging the volatility of methylboronic acid and its diol esters. The method is performed under mild conditions, provides high yields, and eliminates cumbersome and problematic purification steps.
Rhodium(II)-Catalyzed Aryl C?H Carboxylation of 2-Pyridylphenols with CO2
Cai, Zhihua,Li, Shangda,Gao, Yuzhen,Li, Gang
supporting information, p. 4005 - 4011 (2018/09/20)
A protocol for C?H carboxylation of electron-deficient 2-pyridylphenols with CO2 through a Rh(II)-catalyzed C?H bond activation under redox-neutral conditions has been developed. A suitable phosphine ligand was crucial for this reaction. This m
