62031-35-0Relevant academic research and scientific papers
Method for preparing benzyl iodide and derivatives thereof
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Paragraph 0029-0031, (2020/06/24)
The invention discloses a method for efficiently preparing benzyl iodide and derivatives thereof. The preparation method is characterized in that a benzyl alcohol compound, iodine and hydrogen are used as the reaction raw materials and rhodium and phosphine ligand are used as the catalyst to perform one-step reaction in an organic solvent under a positive pressure condition to synthesize the target benzyl iodide and the derivatives thereof, and the reaction formula of the reaction is as shown in the specification. The method has the advantages that the iodination of the method can be easily achieved, reaction condition requirements are low, large-scale industrial production can be achieved, the yield of the benzyl iodide can reach 82% or above, and the yield of the derivatives of the benzyl iodide can reach 99% or above; the method is wide in application range, short in process flow, low in raw material cost and applicable to the industrial production of a series of benzyl iodide and the derivatives thereof.
A new HPLC-UV derivatization approach for the determination of potential genotoxic benzyl halides in drug substances
Ji, Shunli,Gao, Hongbin,Xia, Xingya,Zheng, Feng
, p. 25797 - 25804 (2019/08/28)
Benzyl halides, widely used as alkylation reagents in drug synthesis, are potential genotoxic impurities (PGTIs) required to be controlled at trace levels. However, the existing analytical methods for benzyl halides often suffer from matrix interferences or low derivatization efficiency of benzyl chlorides. In this paper, a simple derivatization HPLC-UV method was developed for the analysis of these residual trace benzyl halides in drug substances. 1-(4-Nitrophenyl) piperazine (4-NPP) was selected as a new derivatization reagent because it shifted well the benzyl halides derivatives away to the near visible range (392 nm), which could minimize the matrix interferences from the drug substances and related impurities. Meanwhile, potassium iodide (KI) was used to convert the mixed benzyl halides into benzyl iodides before derivatization. The derivatization parameters were also optimized using the design of experiments (DoE) for achieving the best reaction efficiency. The results showed that the new approach had high specificity and sensitivity, and the LOQs were 7-9 μg g-1 relative to 5 mg mL-1 antipyrine and 17.5-22.5 μg g-1 relative to 2 mg mL-1 oroxylin A. The method is a valuable alternative for the determination of residual benzyl halides in the drug substances.
A direct transformation of Aryl Aldehydes to Benzyl Iodides Via reductive iodination
Ruso, Jayaraman Sembian,Rajendiran, Nagappan,Kumaran, Rajendran Senthil
, p. 39 - 43 (2014/03/21)
A facile transformation of aryl aldehydes to benzyl iodides through one-pot reductive iodination is reported. This protocol displays remarkable functional group tolerance and the title compound was obtained in good to excellent yield.
