반응 #166141
ord-7770224673d74d02952ff7d797f0d730
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후처리
- 1기타partitioning a target substance into an organic phase
- 2workup.ADDITIONby adding an extract agent
- 3기타an organic solvent to a reaction liquid and (b)
- 4기타recovering the target substance (refer to Patent Literature 8)
실험 절차
Further, the inventors of the present invention disclose, as a method using no sulfuric acid, a method of obtaining 9,9-bis(4-(2-hydroxyethoxy)phenyl)fluorene by reacting fluorenone with phenoxyethanol in the presence of a heteropoly acid serving as a catalyst, which method includes (a) partitioning a target substance into an organic phase by adding an extract agent constituted by water and an organic solvent to a reaction liquid and (b) recovering the target substance (refer to Patent Literature 8). Further, the inventors of the present invention propose: a method for producing 9,9-bis(4-(2-hydroxyethoxy)phenyl)fluorene from fluorenone and 2-phenoxyethanol in the presence of a heteropoly acid catalyst (Patent Literature 9); and a method for producing 9,9-bis(4-(2-hydroxyethoxy)phenyl)fluorene whose melting point is 160° C. to 166° C. (Patent Literature 10). Moreover, there is disclosed a method of obtaining a fluorene derivative by reacting fluorenone with a phenol by using hydrochloric acid and a thiol serving as catalysts, which method includes partitioning a target substance into an organic phase by using an extract agent and recovering the target substance (refer to Patent Literature 11). However, according to these methods, a reaction liquid contains a large amount of unreacted phenol or phenoxyalcohol, which is highly soluble in water. This may cause a reduction in liquid separability, and thus cause a deterioration in hue or purity. Further, these methods place a large burden on the environment, because a large amount of organic compounds such as phenols or phenoxyalcohols are mixed in an aqueous phase, and/or it is necessary to use a large amount of organic solvent for liquid separation. Therefore, these methods are not industrially advantageous.