Department of Chemistry, The University of British Columbia, Vancouver, BC V6T 1Z1, Canada.
J Phys Chem A. 2011 Jun 30;115(25):7392-9. doi: 10.1021/jp203341r. Epub 2011 Jun 7.
Clusters of tetracene molecules with different numbers of attached (Ar)(N), (Ne)(N) and (H(2))(N) particles (N = 1-2000) are assembled inside superfluid He nanodroplets and studied via laser-induced fluorescence. The frequency shift of the fluorescence spectrum of the tetracene molecules is studied as a function of cluster size and pickup order of tetracene and cluster species. For (Ar)(N) and (Ne)(N) clusters, our results indicate that the tetracene molecules reside inside the clusters when tetracene is captured by the He nanodroplet before the cluster species; conversely, the tetracene molecules stay on the surface of the clusters when tetracene is captured after the cluster species. In the case of (H(2))(N) clusters, however, tetracene molecules reside inside the (H(2))(N) clusters irrespective of the pickup order. We conclude that (Ar)(N) and (Ne)(N) clusters are rigid at T = 0.38 K, while (H(2))(N) clusters of up to N = 2000 remain fluxional at the same temperature. The results may also indicate the occurrence of heterogeneous nucleation of the (H(2))(N) clusters, which is induced by the interaction with tetracene chromophore molecules.
不同数量的附着(Ar)(N)、(Ne)(N)和(H(2))(N)颗粒(N=1-2000)的并四苯分子簇被组装在超流氦纳米液滴内,并通过激光诱导荧光进行研究。荧光光谱的频移研究了作为簇尺寸和拾起顺序的功能并四苯和簇种。对于(Ar)(N)和(Ne)(N)簇,我们的结果表明,当并四苯在簇种之前被氦纳米液滴捕获时,分子簇内部存在并四苯分子;相反,当并四苯在簇种之后被捕获时,分子簇表面上存在并四苯分子。然而,对于(H(2))(N)簇,无论拾起顺序如何,分子簇内部都存在并四苯分子。我们得出结论,(Ar)(N)和(Ne)(N)簇在 T=0.38 K 时是刚性的,而在相同温度下,高达 N=2000 的(H(2))(N)簇仍然是通量的。结果也可能表明(H(2))(N)簇的异质成核的发生,这是由与并四苯发色团分子的相互作用引起的。
