王万辉

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教授

博士生导师

硕士生导师

性别:男

毕业院校:日本埼玉大学

学位:博士

所在单位:化工海洋与生命学院

学科:应用化学. 有机化学

办公地点:D01-309A

联系方式:0427-2631823

电子邮箱:Chem_wangwh@dlut.edu.cn

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Positional effects of hydroxy groups on catalytic activity of proton-responsive half-sandwich Cp?iridium(III) complexes

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论文类型:期刊论文

发表时间:2021-01-27

发表刊物:Organometallics

卷号:33

期号:22

页面范围:6519-6530

ISSN号:02767333

摘要:Proton-responsive half-sandwich Cp?Ir(III) complexes possessing a bipyridine ligand with two hydroxy groups at the 3,3  -, 4,4  -, 5,5  -, or 6,6  -positions (3DHBP, 4DHBP, 5DHBP, or 6DHBP) were systematically investigated. UV-vis titration data provided average pKa values of the hydroxy groups on the ligands. Both hydroxy groups were found to deprotonate in the pH 4.6-5.6 range for the 4-6DHBP complexes. One of the hydroxy groups of the 3DHBP complex exhibited a low pKa value of <0.4 because the deprotonation is facilitated by the strong intramolecular hydrogen bond formed between the generated oxyanion and the remaining hydroxy group, which in turn leads to an elevated pKa value of   13.6 for the second deprotonation step. The crystal structures of the 4- and 6DHBP complexes obtained from basic aqueous solutions revealed their deprotonated forms. The intramolecular hydrogen bond in the 3DHBP complex was also observed in the crystal structures. The catalytic activities of these complexes in aqueous phase reactions, at appropriate pH, for hydrogenation of carbon dioxide (pH 8.5), dehydrogenation of formic acid (pH 1.8), and transfer hydrogenation reactions using formic acid/formate as a hydrogen source (pH 2.6 and 7.2) were investigated to compare the positional effects of the hydroxy groups. The 4- and 6DHBP complexes exhibited remarkably enhanced catalytic activities under basic conditions because of the resonance effect of the strong electron-donating oxyanions, whereas the 5DHBP complex exhibited negligible activity despite the presence of electron-donating groups. The 3DHBP complex exhibited relatively high catalytic activity at low pH owing to the one strong electron-donating oxyanion group stabilized by the intramolecular hydrogen bond. DFT calculations were employed to study the mechanism of CO2 hydrogenation by the 4DHBP and 6DHBP complexes, and comparison of the activation free energies of the H2 heterolysis and CO2 insertion steps indicated that H2 heterolysis is the rate-determining step for both complexes. The presence of a pendent base in the 6DHBP complex was found to facilitate the rate-determining step and renders 6DHBP a more effective catalyst for formate production. ? 2014 American Chemical Society.