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首页> 外文期刊>Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics >DISSOCIATION ENERGIES, VIBRATIONAL FREQUENCIES, AND C-13 NMR CHEMICAL SHIFTS OF THE 18-ELECTRON SPECIES [M(CO)(6)](N) (M = HF-IR, MO, TC, RU, CR, MN, FE) - A DENSITY FUNCTIONAL STUDY
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DISSOCIATION ENERGIES, VIBRATIONAL FREQUENCIES, AND C-13 NMR CHEMICAL SHIFTS OF THE 18-ELECTRON SPECIES [M(CO)(6)](N) (M = HF-IR, MO, TC, RU, CR, MN, FE) - A DENSITY FUNCTIONAL STUDY

机译:18种电子[M(CO)(6)](N)的离解能,振动频率和C-13 NMR化学位移(M = HF-IR,MO,TC,RU,CR,MN,FE) -密度泛函研究

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Density functional theory has been used to calculate dissociation energies; vibrational frequencies, and C-13 NMR chemical shifts of the following isoelectronic metal hexacarbonyls: [Hf(CO)(6)](2-), [Ta(CO)(6)](-), W(CO)(6), [Re(CO)(6)](+), [Os(CO)(6)](2+), [Ir(CO)(6)](3+); Mo(CO)(6), [Tc(CO)(6)](+), [Ru(CO)(6)](2+); and Cr(CO)(6), [Mn(CO)(6)](+), [Fe(CO)(6)](2+). The first CO ligand dissociation energy Delta H follows the ordering Ir > Re similar to Os > Hf similar to Ta similar to W through the third transition series. A decomposition of Delta H into contributions from the CO to metal sigma-donation and metal to CO pi-back-donation reveals that this trend is the result of a stronger a-donation in the more oxidized systems. An increase in Delta H toward higher oxidation state is also apparent for the limited sample of 3d and 4d systems. Within a triad, the 4d metal forms the weakest M-CO bond. The calculated CO stretching frequencies are in good agreement with experiment. Further, CO stretching frequencies, optimized R(C-O) distances, and the calculated contribution to Delta H from the pi-back-donation all reveal the expected decline in pi-back-donation toward the more positively charged systems. Both experimental and calculated C-13 NMR chemical shifts diminish with increasing oxidation state. It was shown that the stretch of CO on coordination and pi-back-donation have positive (paramagnetic) contributions to the chemical shift, delta, whereas sigma-donation has a negative (paramagnetic) contribution to delta. All factors contribute to the decline in delta with increasing oxidation state, although pi-back-donation is predominant. [References: 53]
机译:密度泛函理论已被用于计算离解能。振动频率和下列等电子金属六羰基的C-13 NMR化学位移:[Hf(CO)(6)](2-),[Ta(CO)(6)](-),W(CO)(6 ),[Re(CO)(6)](+),[Os(CO)(6)](2 +),[Ir(CO)(6)](3+); Mo(CO)(6),[Tc(CO)(6)](+),[Ru(CO)(6)](2+); Cr(CO)(6),[Mn(CO)(6)](+),[Fe(CO)(6)](2+)。在第三过渡系列中,第一CO配体离解能ΔH遵循类似于Ir> Re类似于Os> Hf类似于Ta类似于W的顺序。将Delta H分解为从CO到金属sigma-donation和从金属到CO pi-back-donation的贡献,表明该趋势是在氧化程度更高的系统中更强的a-donation的结果。对于有限的3d和4d系统样品,向较高氧化态的Delta H的增加也很明显。在三元组中,4d金属形成最弱的M-CO键。计算出的CO拉伸频率与实验吻合良好。此外,CO拉伸频率,优化的R(C-O)距离以及从pi-don-donation计算得出的对Delta H的贡献都揭示了pi-back-donation向带正电的系统的预期下降。实验和计算的C-13 NMR化学位移均随氧化态的增加而减小。结果表明,CO的配位和pi-back-donation对化学位移δ有正(顺磁)贡献,而sigma-donation对δ有负(顺磁)贡献。尽管pi-back捐赠占主导地位,但所有因素都导致随着氧化态的增加,δ降低。 [参考:53]

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