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dc.contributor.authorZhang, Y
dc.contributor.author张宇
dc.contributor.authorYuan, YZ
dc.contributor.author袁友珠
dc.contributor.authorLiao, XL
dc.contributor.author廖新丽
dc.contributor.authorYe, JL
dc.contributor.author叶剑良
dc.contributor.authorYao, CX
dc.contributor.author姚春香
dc.contributor.authorTsai, K
dc.contributor.author蔡启瑞
dc.date.accessioned2012-07-06T02:25:35Z
dc.date.available2012-07-06T02:25:35Z
dc.date.issued1999
dc.identifier.citationCHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE,1999,20(10):1589-1594zh_CN
dc.identifier.issn0251-0790
dc.identifier.urihttps://dspace.xmu.edu.cn/handle/2288/13163
dc.description.abstractWhen NaOH was added into D2O-soiution of HRh(CO) (TPPTS)(3)[TPPTS: P(m-C6H4SO3Na)(3), trisodium salt of tri-(m-sulfophenyl)-phosphine], there were no changes in the characteristic peaks for the water-soluble complex although a small peak at delta 35.1 for OTPPTS[OTPPTS: O = P(m-C6H4SO3Na)(3), trisodium salt of tri-(nz-sulfophenyl)-phosphine oxide] was formed under a high concentration of NaOH, as evidenced by the spectra of P-31(H-1) NMR and H-1 NMR, indicating that the influence on the molecular structure of the complex by NaOH may be limited. Several new signals at delta 29-34 accompanied by the appearance of free ligand TPPTS at delta - 5.0- - 5.3 appeared in the P-31(IH) NMR spectra when pyridine was introduced into HRh(CO)(TPPTS)(3), probably due to the reaction of ligand exchange among the coordinated ligands(such as TPPTS, hydrogen, and CO) in the complex HRh(CO) (TPPTS)(3) and pyridine molecule. The water-soluble complex can be readily decomposed, however, when inorganic acids such as HCl, H2SO4, HNO3 and H3PO4 were introduced into the D2O-solution of HRh(CO)(TPPTS)(3), as shown in P-31(H-1) NMR spectroscopic data. The decomposition of the complex was completed by the formation of OTPPTS at delta 35. 1 and some new phosphate species at delta 27-29 in the P-31(H-1) NMR spectra in the presence of above inorganic acids. Analogous results to those by addition of inorganic acid were obtained when acetate acid was exceeded in mole ratio to HRh(CO)(TPPTS)(3). An increment in n/i ratio of heptyl aldehydes and a depression in TOF were obtained in case of the addition of base, in contrary, a lower n/i ratio of aldehydes in yellowish product was obtained in case of the addition of acid in I-hexene hydroformylation catalyzed by HRh (CO)(TPPTS)(3). The results obtained showed that the molecular structure and catalytic performance of HRh (CO)(TPPTS)(3) may be affected by acid more disserviceably than by base.zh_CN
dc.language.isozhzh_CN
dc.publisherHIGHER EDUCATION PRESSzh_CN
dc.subjectP-31(H-1) NMRzh_CN
dc.subjectH-1 NMRzh_CN
dc.subjectHRh(CO)(TPPTS)(3)zh_CN
dc.subjectacidity and basicityzh_CN
dc.subjecthydroformylationzh_CN
dc.titleNMR characterization and catalytic hydroformylation of water-soluble rhodium-phosphine complex in the presence of acid and basezh_CN
dc.typeArticlezh_CN


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