Leiden Institute of Chemistry, Gorlaeus Laboratories, Leiden University, P.O. Box 9502, 2300 RA, Leiden, The Netherlands.
J Chem Phys. 2013 Jan 28;138(4):044708. doi: 10.1063/1.4776224.
We present new experimental and theoretical results for reactive scattering of dihydrogen from Cu(100). In the new experiments, the associative desorption of H(2) is studied in a velocity resolved and final rovibrational state selected manner, using time-of-flight techniques in combination with resonance-enhanced multi-photon ionization laser detection. Average desorption energies and rotational quadrupole alignment parameters were obtained in this way for a number of (v = 0, 1) rotational states, v being the vibrational quantum number. Results of quantum dynamics calculations based on a potential energy surface computed with a specific reaction parameter (SRP) density functional, which was derived earlier for dihydrogen interacting with Cu(111), are compared with the results of the new experiments and with the results of previous molecular beam experiments on sticking of H(2) and on rovibrationally elastic and inelastic scattering of H(2) and D(2) from Cu(100). The calculations use the Born-Oppenheimer and static surface approximations. With the functional derived semi-empirically for dihydrogen + Cu(111), a chemically accurate description is obtained of the molecular beam experiments on sticking of H(2) on Cu(100), and a highly accurate description is obtained of rovibrationally elastic and inelastic scattering of D(2) from Cu(100) and of the orientational dependence of the reaction of (v = 1, j = 2 - 4) H(2) on Cu(100). This suggests that a SRP density functional derived for H(2) interacting with a specific low index face of a metal will yield accurate results for H(2) reactively scattering from another low index face of the same metal, and that it may also yield accurate results for H(2) interacting with a defected (e.g., stepped) surface of that same metal, in a system of catalytic interest. However, the description that was obtained of the average desorption energies, of rovibrationally elastic and inelastic scattering of H(2) from Cu(100), and of the orientational dependence of reaction of (v = 0, j = 3 - 5, 8) H(2) on Cu(100) compares less well with the available experiments. More research is needed to establish whether more accurate SRP-density functional theory dynamics results can be obtained for these observables if surface atom motion is added to the dynamical model. The experimentally and theoretically found dependence of the rotational quadrupole alignment parameter on the rotational quantum number provides evidence for rotational enhancement of reaction at low translational energies.
我们提出了关于氢在铜(100)表面上的反应散射的新实验和理论结果。在新的实验中,使用飞行时间技术结合共振增强多光子电离激光检测,以速度分辨和最终转动振动状态选择的方式研究了 H(2)的缔合解吸。通过这种方式,我们获得了许多(v=0,1)转动态的平均解吸能和转动四极矩取向参数,其中 v 是振动量子数。基于先前为氢与 Cu(111)相互作用而推导的特定反应参数(SRP)密度泛函计算的势能面的量子动力学计算结果与新实验结果以及先前关于 H(2)在 Cu(100)上的 sticking 以及 H(2)和 D(2)的 Rovibrationally 弹性和非弹性散射的分子束实验结果进行了比较。计算使用 Born-Oppenheimer 和静态表面近似。对于使用半经验方法推导的用于氢+ Cu(111)的功能,我们获得了对 H(2)在 Cu(100)上 sticking 的分子束实验的化学准确描述,并且对 D(2)从 Cu(100)的 Rovibrationally 弹性和非弹性散射以及(v=1,j=2-4)H(2)与 Cu(100)的反应的方向依赖性的高度准确描述。这表明,针对氢与金属的特定低指数面相互作用而推导的 SRP 密度泛函将为氢从同一金属的另一低指数面反应散射提供准确的结果,并且它也可能为氢与同一金属的有缺陷(例如,阶梯)表面相互作用提供准确的结果,在催化感兴趣的系统中。但是,与可用实验相比,对 H(2)从 Cu(100)的平均解吸能, Rovibrationally 弹性和非弹性散射以及(v=0,j=3-5,8)H(2)与 Cu(100)的反应的方向依赖性的描述不太好。如果将表面原子运动添加到动力学模型中,是否可以为这些可观测物获得更准确的 SRP-密度泛函理论动力学结果,还需要进一步研究。实验和理论上发现的转动四极矩取向参数对转动量子数的依赖性为低平移能下反应的转动增强提供了证据。
