| 负载型水溶性铑膦配合物催化剂的结构和性能 |
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| 引用本文: | 袁友株,张宇,陈忠,张鸿斌,蔡启瑞.负载型水溶性铑膦配合物催化剂的结构和性能[J].物理化学学报,1998,14(11):1013-1019. |
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| 作者姓名: | 袁友株 张宇 陈忠 张鸿斌 蔡启瑞 |
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| 作者单位: | Department of Chemistry,Institute of Physical Chemistry,State Key Laboratory for Physical Chemistry of Solid Surface,Xiamen University,Xiamen 361005 |
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| 基金项目: | 国家自然科学基金,中国石化总公司联合资助,“九五”重大项目!29473118,29792075 |
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| 摘 要: | SiO2担载TPPTS(间-三苯基膦三磺酸钠盐)-Rh(acac)(CO)2制成的负载型水溶性催化剂进行1-己烯氢甲酰化催化反应时,引入适量水蒸气可显著提高催化活性.用魔角旋转固体核磁共振磷谱表征得到,在新制备的催化剂中,吸附于SiO2表面但未参与配位的TPPTS,约占总膦物种的70mol%以上,而位于δ=32.4处的表面配合物{Rh(CO)(TPPTS)2}膦物种量约为15mol%,其它膦10mol%左右.催化剂经干燥合成气在373K处理2h、或经湿合成气在较低温度(333K)下处理2h后,{Rh(CO)(TPPTS)2}的增加量仅约为10~15mol%,其它膦物种的变化量也较小,但催化剂经湿合成气于373K处理2h后,{Rh(CO)(TPPTS)2}的净增量大于40mol%;在工作态催化剂中,也观察到{Rh(CO)(TPPTS)2)大量生成、未配位TPPTS量减小;经43h反应运转后,催化剂活性下降,归属为{Rh(CO)(TPPTS)2)的磷谱峰宽化,揭示有部份配合物解络、部分TPPTS被氧化成OTTPTS.本研究结果证实,适量水可促进催化剂中具氢甲酰化催化活性的铑膦物种形成,提高活性,但随反应进行,配合物将逐渐解络、膦配体逐渐被氧化,从而使催化剂逐渐失活.
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| 关 键 词: | 氢甲酰化 负载型水溶性催化剂 魔角旋转固体核磁 1-已烯 |
| 收稿时间: | 1998-02-09 |
| 修稿时间: | 1998-06-04 |
Structure and Hydroformylation Performance of Supported Aqueous-phase Rh Catalyst |
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| Yuan Youzhu, Zhang Yu, Chen Zhong ,Zhang Hongbin ,Khirui Tsai.Structure and Hydroformylation Performance of Supported Aqueous-phase Rh Catalyst[J].Acta Physico-Chimica Sinica,1998,14(11):1013-1019. |
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| Authors: | Yuan Youzhu Zhang Yu Chen Zhong Zhang Hongbin Khirui Tsai |
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| Institution: | Department of Chemistry,Institute of Physical Chemistry,State Key Laboratory for Physical Chemistry of Solid Surface,Xiamen University,Xiamen 361005 |
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| Abstract: | The catalytic activity of hydroformylation of 1-hexene over SiO2-supported TPPTSRh(acac)(CO)2 (SAPC) was found to be evidently promoted when a proper amount of water-vapor was introduced into the reactant. Characterization results by using MAS NMR 31p spectra revealed that there were three types of phosphine species in the as-prepared SAPC: uncoordinated ligand TPPTS (over 70 mol%), surface complex {Rh(CO)(TPPTS)2} (chemical shift at δ=32.4, about 15 mol%), and unknown (about 10 mol%). By pre-treatment at 373 K for 2 under dry-snygas or at 333 K for 2 h under wet-syngas, the amount of phosphine species of the surface complex{Rh(CO)(TPPTS)2} was slightly increased to 20-30mol%, accompanying a few changes in ratios of the other phsophine species. When the SAPC was pre-treated at 373 K for 2 h under wet-syngas, however, the phosphine species at chemical shift of 32.4 was increased by over 40 mol% due to the in-situ formation of the surface complex {Rh(CO)(TPPTS)2}. It was found that the peak at δ=32.4 was also a principal one in the MAS NMR 31P spectra of the working SAPC, which demonstrated that the surface complex of {Rh(CO)(TPPTS)2 } would be a catalytic active species for olefin hydroformyaltion. After hydroformylation for 43 h, the deactivation of the catalyst occurred, corresponding to the observations of a broadness in peak ascribed to the surface complex of {An(CO)(TPPTS)z} in the MAS NMR 31P spectra, indicating that there existed de-coordination of the surface complex and oxidation of the ligand TPPTS during the reaction. The results suggest that a proper amount of water-vapor was able to accelerate the formation of active Rh-complex on the catalyst surface and thus increase the catalytic activity, whereas, it could be inevitably to cause the de-coordination of the surface complex and the oxidation of phosphine ligand under the reaction condition, hence leading to the deactivation of the catalyst. |
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| Keywords: | Hydroformylation Supported aqueous-phase catalyst MAS NMR ~(31)P spectroscopy 1-hexene |
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