Diels-Alder 反应中键形成的动力学、过渡态和时间。
Dynamics, transition states, and timing of bond formation in Diels-Alder reactions.
机构信息
Keck Science Department, Claremont McKenna, Pitzer and Scripps Colleges, 925 N Mills Avenue, Claremont, CA 91711-5916, USA.
出版信息
Proc Natl Acad Sci U S A. 2012 Aug 7;109(32):12860-5. doi: 10.1073/pnas.1209316109. Epub 2012 Jul 2.
Abstract
The time-resolved mechanisms for eight Diels-Alder reactions have been studied by quasiclassical trajectories at 298 K, with energies and derivatives computed by UB3LYP/6-31G(d). Three of these reactions were also simulated at high temperature to compare with experimental results. The reaction trajectories require 50-150 fs on average to transverse the region near the saddle point where bonding changes occur. Even with symmetrical reactants, the trajectories invariably involve unequal bond formation in the transition state. Nevertheless, the time gap between formation of the two new bonds is shorter than a C ─ C vibrational period. At 298 K, most Diels-Alder reactions are concerted and stereospecific, but at high temperatures (approximately 1,000 K) a small fraction of trajectories lead to diradicals. The simulations illustrate and affirm the bottleneck property of the transition state and the close connection between dynamics and the conventional analysis based on saddle point structure.
摘要
在 298 K 下,通过准经典轨迹研究了八种 Diels-Alder 反应的时间分辨机制,能量和导数由 UB3LYP/6-31G(d)计算。其中三个反应也在高温下进行了模拟,以与实验结果进行比较。反应轨迹平均需要 50-150 fs 才能穿过键合发生变化的鞍点附近区域。即使反应物是对称的,轨迹也总是涉及过渡态中不等的键形成。然而,两个新键形成之间的时间间隔短于 C ─ C 振动周期。在 298 K 下,大多数 Diels-Alder 反应是协同的和立体专一的,但在高温(约 1000 K)下,一小部分轨迹会导致自由基。模拟说明了过渡态的瓶颈性质,并证实了动力学与基于鞍点结构的传统分析之间的紧密联系。
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