Yamada Yuji, Goto Yuji, Higuchi Seiichi, Nibu Yoshinori
Department of Chemistry, Faculty of Science , Fukuoka University , Jonan-ku, Fukuoka 814-0180 , Japan.
J Phys Chem A. 2019 May 2;123(17):3728-3734. doi: 10.1021/acs.jpca.9b00878. Epub 2019 Apr 18.
The hydration structures of 3-aminopyridine (3AP)-(HO) ( n = 2-4) in supersonic jets have been investigated by measuring the electronic and vibrational spectra with the aid of quantum chemical calculations. The S-S electronic transition of 3AP-(HO) is observed at a slightly red-shifted position from 3AP-(HO), while further hydration induces drastic red shifts and complicated vibrational structures. We assign the cluster structures of 3AP-(HO) as a cyclic structure composed of the homodromic hydrogen bond (H-bond) chain connecting the pyridyl CH bond acting as the proton donor toward a pyridyl nitrogen acceptor. For 3AP-(HO) ( n = 3, 4), on the other hand, the initial donor site in the H-bond network changes from a pyridyl CH group to an amino group. The observed red shift derived from H-bond network switching can be reproduced very well with the S-S origin band estimation obtained by applying geometry optimization and subsequent harmonic vibrational analysis of (TD-)DFT calculations to each electronic state of the isomer structure. It is suggested that the drastic red shift of the electronic transition upon H-bond network switching is due to a much more stabilized "quinoid-like" structure in the ππ* state by the H-bond formation of an amino group.
通过借助量子化学计算测量电子光谱和振动光谱,研究了超音速喷流中3-氨基吡啶(3AP)-(HO)ₙ(n = 2 - 4)的水合结构。3AP-(HO)₂的S-S电子跃迁在比3AP-(HO)稍红移的位置被观测到,而进一步水合会导致显著的红移和复杂的振动结构。我们将3AP-(HO)₂的团簇结构指定为由同向氢键(H键)链组成的环状结构,该氢键链连接作为质子供体的吡啶基CH键和作为受体的吡啶基氮。另一方面,对于3AP-(HO)₃和3AP-(HO)₄,H键网络中的初始供体位点从吡啶基CH基团变为氨基。通过对异构体结构的每个电子态应用几何优化和随后的(TD-)DFT计算进行谐波振动分析得到的S-S起源带估计,能够很好地重现由H键网络切换引起的观测到的红移。这表明H键网络切换时电子跃迁的显著红移是由于氨基形成H键后,ππ*态中形成了更加稳定的“醌型”结构。
