Antoniotti Paola, Borocci Stefano, Grandinetti Felice
Dipartimento di Chimica Generale ed Organica Applicata, Università degli Studi di Torino, C.so M. D' Azeglio, 48, 10125 Torino, Italy.
J Phys Chem A. 2006 Aug 3;110(30):9429-37. doi: 10.1021/jp0614603.
The structure, stability, and thermochemistry of various Ge3H(n)- isomers (n = 0-5) and of their neutral analogues have been investigated at the B3LYP/6-311+G(d), MP2(full)/6-31G(d), and Gaussian-2 (G2) level of theory. For Ge3H(-), both the B3LYP and the G2/MP2 methods predict the cyclic, H-bridged structure 1a- as the global minimum, more stable than another cyclic isomer and an open-chain isomer by ca. 10 and 25 kcal mol(-1), respectively. For Ge3H2(-), the B3LYP and the G2/MP2 methods provide a somewhat different description of the potential energy surface. At the G2/MP2 level of theory, the global minimum is the cyclic, H2Ge-bridged structure 2a-, separated by other three nearly degenerate isomers by ca. 10 kcal mol(-1). On the other hand, at the B3LYP level of theory, the cyclic, H-bridged structure 2e-, not located at the MP2 level of theory, is more stable than 2a- by ca. 1 kcal mol(-1). For Ge3H3(-), both the B3LYP and the G2/MP2 methods predict the cyclic, H3Ge-bridged isomer 3a- as the global minimum, but the energy differences with the other five located isomeric structures predicted by the two methods are quantitatively different. Similar to Ge3H2(-), the B3LYP and the G2/MP2 theoretical levels provide a somewhat different description of the Ge3H4(-) potential energy surface. At the G2/MP2 level of theory, the global minimum is the cyclic structure 4b- of C(2v) symmetry, featuring a Ge2H4 moiety and a Ge-bridged atom, which is more stable than other three located isomers by 3, 9, and 17 kcal mol(-1). On the other hand, at the B3LYP level of theory, the open-chain isomer 4a- of H3Ge-Ge-GeH(-) connectivity is more stable than 4b- by ca. 1 kcal mol(-1) and nearly degenerate with the alternative open-chain isomer H3Ge-GeH-Ge(-). For Ge3H5(-), both the B3LYP and the G2/MP2 methods predict the 2-propenyl-like isomer H3Ge-Ge-GeH2(-) as the global minimum, with energy differences with other four isomeric structures which range from ca. 1-2 to 13-17 kcal mol(-1). At the G2 level of theory and 298.15 K, the electron affinities of Ge3H(n) are computed as 2.17 (n = 0), 2.57 (n = 1), 1.70 (n = 2), 2.41 (n = 3), 2.07/1.80 (n = 4), and 2.71/2.46 eV (n = 5). The two alternative values reported for Ge3H4 and Ge3H5 reflect the alternative conceivable choice for the structure of the involved neutrals and ions. The G2 enthalpies of formation of Ge3H(n) and Ge3H(n)- (n = 0-5) have also been calculated using the atomization procedure. Finally, we have briefly discussed the implications of our calculations for previously performed mass spectrometric experiments on the negative ion chemistry of GeH4.
在B3LYP/6 - 311 + G(d)、MP2(full)/6 - 31G(d)和高斯 - 2(G2)理论水平下,研究了各种Ge3H(n)-异构体(n = 0 - 5)及其中性类似物的结构、稳定性和热化学性质。对于Ge3H(-),B3LYP和G2/MP2方法均预测环状的H桥连结构1a-为全局最小值,比另一种环状异构体和一种开链异构体分别稳定约10和25 kcal mol(-1)。对于Ge3H2(-),B3LYP和G2/MP2方法对势能面的描述略有不同。在G2/MP2理论水平下,全局最小值是环状的H2Ge桥连结构2a-,与其他三个近简并异构体的能量差约为10 kcal mol(-1)。另一方面,在B3LYP理论水平下,环状的H桥连结构2e-(在MP2理论水平下未找到)比2a-稳定约1 kcal mol(-1)。对于Ge3H3(-),B3LYP和G2/MP2方法均预测环状的H3Ge桥连异构体3a-为全局最小值,但两种方法预测的与其他五个已找到的异构结构的能量差在数量上有所不同。与Ge3H2(-)类似,B3LYP和G2/MP2理论水平对Ge3H4(-)势能面的描述略有不同。在G2/MP2理论水平下,全局最小值是具有C(2v)对称性的环状结构4b-,其特征是含有一个Ge2H4部分和一个Ge桥连原子,比其他三个已找到的异构体分别稳定3、9和17 kcal mol(-1)。另一方面,在B3LYP理论水平下,具有H3Ge - Ge - GeH(-)连接性的开链异构体4a-比4b-稳定约1 kcal mol(-1),且与另一种开链异构体H3Ge - GeH - Ge(-)近简并。对于Ge3H5(-),B3LYP和G2/MP2方法均预测类2 - 丙烯基异构体H3Ge - Ge - GeH2(-)为全局最小值,与其他四个异构结构的能量差范围约为1 - 2至13 - 17 kcal mol(-1)。在G2理论水平和298.15 K下,计算得到Ge3H(n)的电子亲和能为2.17(n = 0)、2.57(n = )、1.70(n = 2)、2.41(n = 3)、2.07/1.80(n = 4)和2.71/2.46 eV(n =)。报道Ge3H4和Ge3H5的两个替代值反映了所涉及的中性和离子结构的替代可想象选择。还使用原子化程序计算了Ge3H(n)和Ge3H(n)-(n = 0 - 5)的G2生成焓。最后,我们简要讨论了我们的计算对先前进行的关于GeH4负离子化学的质谱实验的影响。
