Wen Mei, Medel Robert, Deng Guohai, Tsegaw Yetsedaw A, Lu Yan, Riedel Sebastian
Freie Universität Berlin, Institut für Chemie und Biochemie-Anorganische Chemie, Fabeckstrasse 34/36, 14195, Berlin, Germany.
Chemistry. 2023 Sep 1;29(49):e202301676. doi: 10.1002/chem.202301676. Epub 2023 Aug 1.
Group 13 oxyfluorides OMF were produced by the reactions of laser-ablated group 13 atoms M (M=B, Al, Ga and In) with OF and isolated in excess neon or argon matrices at 5 K. These molecules were characterized by matrix-isolation infrared spectroscopy and isotopic substitution experiments in conjunction with quantum-chemical calculations. The calculations indicate that the OMF molecules have a B ground state with C symmetry. The computed molecular orbitals and spin densities show that the unpaired electron is mainly located at the terminal oxygen atom. Oxo monofluorides OMF were only observed in solid argon matrices and exhibit a linear structure in the singlet ground state. The M-O bonding in the OMF molecules can be rationalized as highly polar multiple bonds based on the calculated bond lengths and natural resonance theory (NRT) analyses. In particular, the molecular orbitals of OBF exhibit the character of a triple bond B-O resulting from two degenerate electron-sharing π bonds and an O→B dative σ bond formed by the oxygen 2p lone pair which donates electron density to the boron empty 2p orbital.
13族氧氟化物OMF是通过激光烧蚀的13族原子M(M = B、Al、Ga和In)与OF反应生成的,并在5 K下于过量的氖或氩基质中分离出来。这些分子通过基质隔离红外光谱和同位素取代实验并结合量子化学计算进行表征。计算表明,OMF分子具有C对称性的B基态。计算得到的分子轨道和自旋密度表明,未成对电子主要位于末端氧原子上。氧单氟化物OMF仅在固体氩基质中观察到,并且在单重基态下呈现线性结构。基于计算的键长和自然共振理论(NRT)分析,OMF分子中的M - O键可以合理地解释为高极性多重键。特别是,OBF的分子轨道表现出三键B - O的特征,它由两个简并的电子共享π键和一个由氧2p孤对电子向硼空2p轨道提供电子密度而形成的O→B配位σ键组成。
