Università degli Studi di Milano, Dipartimento di Chimica Inorganica, Metallorganica e Analitica Lamberto Malatesta, via Venezian 21, 20133, Milano, Italy.
Dalton Trans. 2011 Oct 21;40(39):10162-73. doi: 10.1039/c1dt10963d. Epub 2011 Sep 1.
One bond Pt-P coupling constants (1)J(PtP) of a series of cationic complexes PtXL(PPh(3))(2) (X = NO(3), Cl, Br, I; L = 4-Z-pyridines, Z = electron withdrawing or releasing groups, 4a-k; or X = Cl, L = NH(3), PhCH(2)NH(2) and (i)PrNH(2), 5a-c) have been used to establish the trans and cis influence sequences of X and pyridines. The crystal structure of compound 4f(BF(4)) with Z = (t)Bu has been resolved. In the pyridine complexes 4a-d (Z = H, variable X), both the trans and cis influence series of the anionic ligands X decrease along the same sequence I > Br > Cl > NO(3), as previously found for PtX(PPh(3))(3) (X = NO(3), Cl, Br, I, 3a-d), however in 4a-d the cis influence turns out to be more important than the trans. On the contrary, in PtCl(4-Z-py)(PPh(3))(2) (4b,e-k) the sequence of the trans influence of the 4-Z-pyridines is opposite to that of the cis, the latter being Z = CN > CHO > Br > PhCO > H > Me > (t)Bu > NH(2), i.e. the most basic pyridine gives rise to the lowest cis influence. This correlation was found to hold also for complexes 5a-c (L = amines). All the observed trends have been fully reproduced by B3LYP/def2-SVP DFT calculations, by looking at the relevant optimized bond lengths of selected complexes of type 3, 4 and 5. Subsequent evaluation of the atomic charges, by resorting to two independent methods, i.e., the Natural Bond Order analysis of the wavefunction and the Bader's Quantum Theory of Atoms in Molecules, allowed for rationalization of the origin of the cis and trans influences. The negative charge on the nitrogen atoms of free pyridines becomes more negative upon protonation and even more so when coordinated to the PtCl(PPh(3))(2) moiety. The least negatively charged nitrogen atom of coordinated pyridines is that of 4-CN-py (the highest cis influencing pyridine derivative), which gives rise to the lowest positive charge on Pt, confirming the relationship between the lowering of the charge on the metal ion and a high cis influence. The trans influence can be described in terms of competition between the charges on the two trans donor atoms. In contrast with the behaviour of pyridines, the positive charge on the phosphorous atom of free PPh(3) increases upon coordination to Pt(II), moreover the PPh(3) ligands acquire a substantial positive charge, thus efficiently delocalising the charge of the cationic complex.
已经使用一系列阳离子配合物PtXL(PPh(3))(2)(X = NO(3), Cl, Br, I; L = 4-Z-吡啶,Z =吸电子或供电子基团,4a-k;或 X = Cl,L = NH(3),PhCH(2)NH(2)和(i)PrNH(2),5a-c)的一个 Pt-P 键偶合常数(1)J(PtP)来建立 X 和吡啶的顺式和反式影响序列。具有 Z = (t)Bu 的化合物 4f(BF(4))的晶体结构已被解析。在吡啶配合物 4a-d(Z = H,可变 X)中,阴离子配体 X 的顺式和反式影响序列均沿相同的序列 I > Br > Cl > NO(3)降低,如先前在PtX(PPh(3))(3)(X = NO(3), Cl, Br, I, 3a-d)中发现的那样,然而在 4a-d 中,顺式影响比反式影响更重要。相反,在PtCl(4-Z-吡啶)(PPh(3))(2)(4b,e-k)中,4-Z-吡啶的顺式影响序列与反式影响序列相反,后者为 Z = CN > CHO > Br > PhCO > H > Me > (t)Bu > NH(2),即最碱性的吡啶产生最低的顺式影响。这种相关性也适用于配合物 5a-c(L = 胺)。所有观察到的趋势都通过 B3LYP/def2-SVP DFT 计算得到了充分再现,通过观察选定的 3、4 和 5 型配合物的相关优化键长。随后通过两种独立的方法,即波函数的自然键序分析和 Bader 的分子量子理论中的原子,对原子电荷进行评估,使得顺式和反式影响的起源合理化。自由吡啶氮原子上的电荷在质子化时变得更负,当与PtCl(PPh(3))(2)部分配位时甚至更负。配位吡啶中带负电荷最小的氮原子是 4-CN-py(最高顺式影响的吡啶衍生物),它导致 Pt 上的正电荷最低,证实了金属离子上电荷降低与高顺式影响之间的关系。顺式影响可以用两个顺式给体原子上电荷之间的竞争来描述。与吡啶的行为相反,游离 PPh(3)上磷原子的正电荷在与 Pt(II)配位时增加,此外,PPh(3)配体获得了相当大的正电荷,从而有效地使阳离子配合物的电荷离域化。
