91671-22-6Relevant academic research and scientific papers
Iron(0)-Mediated Reformatsky Reaction for the Synthesis of β-Hydroxyl Carbonyl Compounds
Liu, Xuan-Yu,Li, Xiang-Rui,Zhang, Chen,Chu, Xue-Qiang,Rao, Weidong,Loh, Teck-Peng,Shen, Zhi-Liang
supporting information, p. 5873 - 5878 (2019/08/20)
An efficient, economical, and practical Reformatsky reaction of α-halo carbonyl compounds with aldehydes/ketones by using cheap and commercial iron(0) powder as reaction mediator is developed. The reactions proceeded effectively in the presence of a catalytic amount of iodine (20 mol %) to afford the synthetically useful β-hydroxyl carbonyl compounds in moderate to good yields.
Method for preparing β - hydroxyl carbonyl compound (by machine translation)
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Paragraph 0071-0075, (2019/10/01)
The present invention relates to a process for preparing β - hydroxycarbonyl compounds, which mainly provides a process for the reaction, using inexpensive commercial iron powder-mediated α -halocarbonyl compounds with aldehydes/ketones, to provide the corresponding β - hydroxycarbonyl compound . the present invention relates to a method. The process is good, has wide functional group tolerance and good compatibility. (by machine translation)
Carbon-Carbon Bond-Forming Reactions Using Cerium Metal or Organocerium(III) Reagents
Imamoto, Tsuneo,Kusumoto, Tetsuo,Tawarayama, Yoshinori,Sugiura, Yasushi,Mita, Takeshi,et al.
, p. 3904 - 3912 (2007/10/02)
Carbon-carbon bond-forming reactions using cerium metal or organocerium(III) reagents have been investigated.Cerium amalgam is an effective reagent for the chemoselective preparation of homoallylic alcohols from allyl halides and carbonyl compounds.These same reagent can also be satisfactorily employed for the Reformatsky-type reaction of α-halo esters with carbonyl compounds.It has been shown that organocerium(III) reagents are conveniently generated by the reaction of organolithiums with cerium(III)iodide or cerium(III)chloride.The reagents are less basic thanorganolithiums or Grignard reagents, and they react cleanly at -78 to -65 deg C with various carbonyl compounds to afford the addition products in high yields, even though the substrates are susceptible to enolization or metal-halogen exchange with simple organolithiums.The same reagents react also with α,β-unsaturated compounds to yield 1,2-addition products in high selectivity.
