Ranga Pavit K, Ahmad Feroz, Singh Gurdeep, Tyagi Akshi, Vijaya Anand Ramasamy
Department of Chemical Sciences, Indian Institute of Science Education and Research (IISER) Mohali, Sector 81, Knowledge City, S.A.S Nagar, Manauli (PO), Punjab - 140306, India.
Org Biomol Chem. 2021 Nov 18;19(44):9541-9564. doi: 10.1039/d1ob01549d.
The development of novel small molecule-based catalysts for organic transformations has increased noticeably in the last two decades. A very recent addition to this particular research area is cyclopropene- and cyclopropenium-based catalysts. At one point in time, particularly in the mid-20 century, much attention was focused on the structural aspects and physical properties of cyclopropene-based compounds. However, a paradigm shift was observed in the late 20 century, and the focus shifted to the synthetic utility of these compounds. In fact, a wide range of cyclopropene derivatives have been found serving as valuable synthons for the construction of carbocycles, heterocycles and other useful organic compounds. In the last few years, the catalytic applications of cyclopropene/cyclopropenium-based compounds have been uncovered and many synthetic protocols have been developed using cyclopropene-based compounds as organocatalysts. Therefore, the main objective of this review is to highlight recent developments in the catalytic applications of cyclopropene-based small molecules in different areas of organocatalysis such as phase-transfer catalysis (PTC), Brønsted base catalysis, hydrogen-bond donor catalysis, nucleophilic carbene catalysis, and electrophotocatalysis developed within the past two decades.
在过去二十年中,用于有机转化的新型小分子催化剂的发展显著增加。环丙烯和环丙烯鎓基催化剂是这一特定研究领域的最新成员。曾有一段时间,特别是在20世纪中叶,人们非常关注环丙烯基化合物的结构方面和物理性质。然而,在20世纪后期观察到了范式转变,重点转向了这些化合物的合成效用。事实上,已发现多种环丙烯衍生物可作为构建碳环、杂环和其他有用有机化合物的有价值合成子。在过去几年中,环丙烯/环丙烯鎓基化合物的催化应用已被揭示,并且已经开发了许多使用环丙烯基化合物作为有机催化剂的合成方案。因此,本综述的主要目的是突出环丙烯基小分子在过去二十年中在有机催化的不同领域(如相转移催化(PTC)、布朗斯特碱催化、氢键供体催化、亲核卡宾催化和光电催化)中的催化应用的最新进展。
