Addition of CCl4 to unsaturated compounds catalyzed by M3(CO)12 (M=Fe, Ru, Os)

The addition of CCl₄ to hex-1-ene and to the methyl ester ofN-(trans-cinnamoyl)-l-proline (2) catalyzed by M₃(CO)₁₂ or by the M₃(CO)₁₂+DMF system (M=Fe, Ru, Os) was studied. The use of ruthenium and osmium dodecacarbonyls in combination with DMF increases the yields of adducts CCl₃CH₂CHClC₄H₉ (4) and PhCHClCH(CCl₃)C(O)R′ (3) over those obtained in reactions catalyzed by the same carbonyls without DMF. In addition to adduct3, salts [M(CO₃)Cl₃]⁻[Me₂NH₂]⁺ were isolated from the products of the reaction between CCl₄ and1 in the presence of M₃(CO)₁₂+DMF (M=Ru, Os). These salts do not catalyze this reaction and apparently result from chain termination. Experimental results in favor of a coordination mechanism of the addition of CCl₄ to olefins in the presence of Ru₃(CO)₁₂ and Os₃(CO)₁₂ were obtained. Translated fromIzvestiya Akademii Nauk Seriya Khimicheskaya, No. 6, pp. 1174–1179, June, 1997.     

二氧噁唑酮参与的环化反应研究进展

胺化反应在合成化学领域占据着重要地位。二氧噁唑酮是一种新型酰基乃春转移试剂,广泛应用于多种类型的胺化反应中。在温和条件下,过渡金属或非金属即可活化二氧噁唑酮,释放出二氧化碳并生成酰基乃春中间体,进而参与到胺化-环化反应中。该策略为构建噁唑、喹唑啉和喹诺酮等杂环化合物提供了新的思路。近年来,二氧噁唑酮参与的环化反应受到越来越多研究者的关注,并且取得了重要进展。本文从不同的催化体系着手就近年来二氧噁唑酮参与的环化反应进行概述。     

可见光催化C(sp3)-C(sp3)键的构筑

本文对近年来可见光催化构筑C(sp ³)-C(sp ³)键的国内外最新研究成果进行概述,着重阐述了各类催化的催化体系、反应机理及在合成生物活性分子或药物分子方面的应用。在可见光催化的反应体系中引入过渡金属或手性催化剂,构建新颖的协同催化体系,可以实现在温和的条件下对C—C键构筑的精确控制,对于手性药物的设计、开发具有重要的意义。最后,对未来可见光催化构筑C—C键的发展进行展望。