Cappelletti David, Aquilanti Vincenzo, Bartocci Alessio, Nunzi Francesca, Tarantelli Francesco, Belpassi Leonardo, Pirani Fernando
Dipartimento di Chimica, Biologia e Biotecnologie, Università di Perugia , Via Elce di Sotto 8, 06123 Perugia, Italy.
CNR-Istituto di Scienze e Tecnologie Molecolari, Via Elce di Sotto 8, 06123 Perugia, Italy.
J Phys Chem A. 2016 Jul 14;120(27):5197-207. doi: 10.1021/acs.jpca.6b00948. Epub 2016 Mar 11.
Gas phase collisions of O2 by CH4, CF4, and CCl4 have been investigated with the molecular beam technique by measuring both the integral cross section value, Q, and its dependence on the collision velocity, v. The adopted experimental conditions have been appropriate to resolve the oscillating "glory" pattern, a quantum interference effect controlled by the features of the intermolecular interaction, for all the three case studies. The analysis of the Q(v) data, performed by adopting a suitable representation of the intermolecular potential function, provided the basic features of the anisotropic potential energy surfaces at intermediate and large separation distances and information on the relative role of the physically relevant types of contributions to the global interaction. The present work demonstrates that while O2-CH4 and O2-CF4 are basically bound through the balance between size (Pauli) repulsion and dispersion attraction, an appreaciable intermolecular bond stabilization by charge transfer is operative in O2-CCl4. Ab initio calculations of the strength of the interaction, coupled with detailed analysis of electronic charge displacement promoted by the formation of the dimer, fully rationalizes the experimental findings. This investigation indicates that the interactions of O2, when averaged over its relative orientations, are similar to that of a noble gas (Ng), specifically Ar. We also show that the binding energy in the basic configurations of the prototypical Ng-CF4,CCl4 systems [ Cappelletti , D. ; Chem. Eur. J. 2015 , 21 , 6234 - 6240 ] can be reconstructed by using the interactions in Ng-F and Ng-Cl systems, previously characterized by molecular beam scattering experiments of state-selected halogen atom beams. This information is fundamental to approach the modeling of the weak intermolecular halogen bond. On the basis of the electronic polarizability, this also confirms [ Aquilanti , V. ; Angew. Chem., Int. Ed. 2005 , 44 , 2356 - 2360 ] that O2 can be taken as a proper reference partner for simulating the behavior of some basic noncovalent components of the interactions involving water. Present results are of fundamental relevance to build up the force field controlling the hydrophobic behavior of prototypical apolar CX4 (X = H, F, Cl) molecules.
利用分子束技术,通过测量积分截面值(Q)及其对碰撞速度(v)的依赖性,研究了(O_2)与(CH_4)、(CF_4)和(CCl_4)的气相碰撞。对于所有这三个案例研究,所采用的实验条件都适合解析振荡的“荣耀”图案,这是一种由分子间相互作用特征控制的量子干涉效应。通过采用分子间势函数的合适表示形式对(Q(v))数据进行分析,得到了中间和大分离距离下各向异性势能面的基本特征,以及关于对全局相互作用有物理意义的贡献类型的相对作用的信息。目前的工作表明,虽然(O_2 - CH_4)和(O_2 - CF_4)基本上是通过尺寸(泡利)排斥和色散吸引之间的平衡而结合,但电荷转移在(O_2 - CCl_4)中对分子间键的稳定作用相当显著。对相互作用强度的从头算计算,结合对二聚体形成所促进的电子电荷位移的详细分析,完全解释了实验结果。这项研究表明,当对(O_2)的相对取向进行平均时,其相互作用类似于稀有气体((Ng)),特别是(Ar)的相互作用。我们还表明,原型(Ng - CF_4)、(CCl_4)系统[卡佩莱蒂,(D);《化学欧洲杂志》2015年,21卷,6234 - 6240页]基本构型中的结合能,可以通过使用(Ng - F)和(Ng - Cl)系统中的相互作用来重建,这些系统先前已通过状态选择卤原子束的分子束散射实验进行了表征。这些信息对于建立弱分子间卤键的模型至关重要。基于电子极化率,这也证实了[阿奎兰蒂,(V);《德国应用化学》2005年,44卷,2356 - 2360页],(O_2)可以作为模拟涉及水的相互作用中一些基本非共价成分行为的合适参考伙伴。目前的结果对于建立控制原型非极性(CX_4)((X = H)、(F)、(Cl))分子疏水行为的力场具有根本意义。
