Formation of resonantly stabilised free radicals via the reactions of atomic carbon, dicarbon, and tricarbon with unsaturated hydrocarbons: theory and crossed molecular beams experiments

IF 2.5 2区 化学 Q3 CHEMISTRY, PHYSICAL International Reviews in Physical Chemistry Pub Date : 2015-10-02 DOI:10.1080/0144235X.2015.1075280
A. Mebel, R. Kaiser
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引用次数: 28

Abstract

Resonance stabilised free radicals (RSFRs) play an important role in the growth of polycyclic aromatic hydrocarbons and ultimately in the production of soot and carbonaceous particles in combustion flames, in the interstellar medium, and in planetary atmospheres. This article reviews extensive experimental crossed molecular beams and theoretical ab initio/Rice–Ramsperger–Kassel–Marcus studies in the last two decades of the reactions of atomic carbon, C(3P), dicarbon, C2(X1Σg+/a3Πu), and tricarbon, C3(X1Σg+), with unsaturated hydrocarbons, from acetylene to benzene, showing that the reactions form various types of RSFR via Cn(n = 1–3)-for-H, Cn-for-CH3, and Cn-for-CxHy exchange mechanisms. The RSFRs produced in these reactions include CxH (x = 1–8), propargyl (C3H3) and its substituted analogues, 2,4-pentadiynyl-1 (i-C5H3) and 1,4-pentadiynyl-3 (n-C5H3) together with their methyl substituted counterparts, butatrienyl (i-C4H3) and its substituted analogues, and hexenediynyl, i-C6H3, as well as cyclic five-, six-, and seven-member ring radicals including aromatic phenyl, benzyl, and tolyls. The reactions of atomic carbon and dicarbon proceed by barrierless additions to double, triple, or ‘aromatic’ bonds of the unsaturated hydrocarbons, form highly exothermic products, and are fast even at very low temperatures, whereas the reactions of singlet tricarbon require high barriers to be overcome, often leading to endothermic products, and can occur only at high temperatures. The paper summarises typical reaction mechanisms for small carbon species (C, C2, and C3) with unsaturated hydrocarbons and describes implications of the considered reactions in combustion chemistry and astrochemistry.
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原子碳、碳和三碳与不饱和烃反应形成共振稳定自由基:理论和交叉分子束实验
共振稳定自由基(RSFRs)在多环芳烃的生长过程中发挥着重要作用,最终在燃烧火焰、星际介质和行星大气中产生烟尘和碳质颗粒。本文综述了近二十年来关于碳原子C(3P)、碳原子C2(X1Σg+/a3Πu)和三碳原子C3(X1Σg+)与乙炔、苯等不饱和烃反应的大量实验交叉分子束和理论从头算研究,表明这些反应通过Cn(n = 1-3)-换h、Cn-换ch3和Cn-换cxhy交换机制形成各种类型的RSFR。在这些反应中产生的RSFRs包括CxH (x = 1 - 8)、丙炔(C3H3)及其取代类似物、2,4-pentadiynyl-1 (i-C5H3)和1,4-pentadiynyl-3 (n-C5H3)及其甲基取代对应物、丁三烯基(i-C4H3)及其取代类似物、己二炔基(i-C6H3)以及环五、六和七元环自由基,包括芳香苯基、苄基和苯基。原子碳和碳的反应是通过在不饱和碳氢化合物的双键、三键或“芳烃”键上无阻碍的加成来进行的,形成高度放热的产物,即使在极低的温度下也能快速进行,而单线态三碳的反应需要克服很高的障碍,通常导致吸热产物,并且只能在高温下发生。本文综述了小碳种(C、C2和C3)与不饱和烃的典型反应机理,并介绍了燃烧化学和天体化学中所考虑的反应的意义。
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来源期刊
CiteScore
14.20
自引率
1.60%
发文量
5
审稿时长
1 months
期刊介绍: International Reviews in Physical Chemistry publishes review articles describing frontier research areas in physical chemistry. Internationally renowned scientists describe their own research in the wider context of the field. The articles are of interest not only to specialists but also to those wishing to read general and authoritative accounts of recent developments in physical chemistry, chemical physics and theoretical chemistry. The journal appeals to research workers, lecturers and research students alike.
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