text.skipToContent text.skipToNavigation

Maximum quantity allowed is 999

请选择数量

Trifluoromethylation [Synthetic Reagents]

The size of a fluorine atom is similar to a hydrogen atom but the electric property of it is more electronegative. So, by replacing a hydrogen atom of substances with a fluorine atom, their biological properties can be dramatically changed without a conformational change. Recently, the synthetic and biological studies of fluorinated molecules have attracted a lot of interest in the fields of pharmaceuticals and agrochemicals research. Especially, the synthetic study of the trifluoromethyl group-containing compounds is now actively proceeding.
As a method for direct trifluoromethylation, nucleophilic and electrophilic/radical fluorinating reactions are commonly used. Ruppert-Prakash reagent (= (trifluoromethyl)trimethylsilane) (Product No. T0570) is the most popular nucleophilic trifluoromethylating reagent and which readily reacts with a fluoride ion to release the trifluoromethylanion species. This active species shows nucleophilicity and reacts with carbonyl compounds to proceed with the trifluoromethylation.1) Also, the nucleophilic trifluoromethylation of aromatic halides can be performed with the use of copper catalysts.2)
The study of electrophilic trifluoromethylations has lagged compared to that of nucleophilic trifluoromethylations. However, recently some reagents usable for electrophilic trifluoromethylation have been reported. Shibata et al. have developed an electrophilic α-trifluoromethylation of β-ketoesters using the fluorinated Johnson reagent (Product No. O0367).3) The hypervalent iodine(III)–CF3 reagents, Togni reagent (Product No. T2624) and Togni reagent II (Product No. T3014) developed by Togni et al., are widely used for trifluoromethylations of thiols, alcohols, phosphines, and heteroarenes.4) Also, Baran et al. have reported the radical trifluoromethylation of heteroarenes using the Langlois reagent (Product No. T2033) or zinc(II) bis(trifluoromethanesulfinate) (= Zn(SO2CF3)2) (Product No. Z0028) with tert-butyl hydroperoxide.5)

References

22 個 顯示
  • 1(current)
  • 2
視圖:  名單
產品號碼 D5889
CAS RN 1895006-01-5
純度/分析方法 >98.0%(HPLC)

產品號碼 P2114
CAS RN 2923-16-2
純度/分析方法 >98.0%(T)

產品號碼 P2195
CAS RN 426-58-4
純度/分析方法 >98.0%(GC)

產品號碼 P2460
CAS RN 703-18-4
純度/分析方法 >98.0%(GC)

產品號碼 T0433
CAS RN 407-25-0
純度/分析方法 >98.0%(GC)

產品號碼 T1336
CAS RN 2923-18-4
純度/分析方法 >98.0%(T)

產品號碼 T2764
CAS RN 120120-26-5
純度/分析方法 >98.0%(GC)

產品號碼 T2883
CAS RN 325810-07-9
純度/分析方法 >98.0%(T)

產品號碼 T4082
CAS RN 2833773-70-7
純度/分析方法 >98.0%(T)(HPLC)

產品號碼 Z0028
CAS RN 39971-65-8
純度/分析方法 >98.0%(T)

產品號碼 T1570
CAS RN 81290-20-2
純度/分析方法 >97.0%(GC)

產品號碼:   D5889 | 純度/分析方法   >98.0%(HPLC)

產品號碼:   P2114 | 純度/分析方法   >98.0%(T)

產品號碼:   P2195 | 純度/分析方法   >98.0%(GC)

產品號碼:   P2460 | 純度/分析方法   >98.0%(GC)

產品號碼:   T0433 | 純度/分析方法   >98.0%(GC)

產品號碼:   T1336 | 純度/分析方法   >98.0%(T)

產品號碼:   T2764 | 純度/分析方法   >98.0%(GC)

產品號碼:   T2883 | 純度/分析方法   >98.0%(T)

產品號碼:   Z0028 | 純度/分析方法   >98.0%(T)

  • 1(current)
  • 2
會話狀態
當前會話將在10分鐘後超時,並返回主頁。請點擊按鈕繼續瀏覽。分鐘後超時,並返回主頁。請點擊按鈕繼續瀏覽。

您的會話已超時,將返回至主頁。