| 反式-二氯四吡啶合钌催化CO2制备碳酸丙烯酯机理探讨 |
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| 引用本文: | 齐红卫,王志强,曹婷婷,任铁刚,卜站伟. 反式-二氯四吡啶合钌催化CO2制备碳酸丙烯酯机理探讨[J]. 河南大学学报(自然科学版), 2012, 42(1): 42-46 |
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| 作者姓名: | 齐红卫 王志强 曹婷婷 任铁刚 卜站伟 |
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| 作者单位: | 1. 河南大学化学化工学院精细化工研究所,河南开封475004;温州科技职业学院,浙江温州325006
2. 河南大学化学化工学院精细化工研究所,河南开封,475004 |
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| 摘 要: | 在研究反式-二氯四吡啶合钌[trans-RuCl2(py)4]催化二氧化碳与环氧丙烷反应制备碳酸丙烯酯的基础上,利用电喷雾质谱(ESI-MS)进一步分析了催化反应过程中催化剂的结构变化,并通过对trans-RuCl2(py)4的晶体结构数据分析、键能计算等手段,探讨了trans-RuCl2(py)4催化反应机理.结果显示,trans-RuCl2(py)4催化二氧化碳和环氧丙烷反应,首先是通过环氧丙烷与trans-RuCl2(py)4中的氯进行配体交换引发的,发生配体交换的氯离子作为亲核试剂进攻环氧丙烷开环,二氧化碳插入Ru-O键,继而进行分子内关环、消去反应生成碳酸丙烯酯.
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| 关 键 词: | 钌配合物 催化 二氧化碳 反应机理 |
Investigation of Reaction Mechanism for Formation Propylene Carbonate from CO2 Catalyzed by Trans-RuCl2(PY)4 |
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| QI Hong-wei , WANG Zhi-qiang , CAO Ting-ting , REN Tie-gang , BU Zhan-wei. Investigation of Reaction Mechanism for Formation Propylene Carbonate from CO2 Catalyzed by Trans-RuCl2(PY)4[J]. Journal of Henan University(Natural Science), 2012, 42(1): 42-46 |
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| Authors: | QI Hong-wei WANG Zhi-qiang CAO Ting-ting REN Tie-gang BU Zhan-wei |
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| Affiliation: | 1 (1.Research Institute of Fine Chemical Engineering,Henan University,Henan Kaifeng 475004,China; 2.Wenzhou Vocational College of Science and Technology,Zhejiang Wenzhou 325006,China) |
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| Abstract: | Based on research of the coupling reaction of CO2 and propylene oxide to afford propylene carbonate catalyzed by trans-dichlorotetrapyridineruthenium[trans-RuCl2(py)4],the reaction mechanism has been studied by means of electrospray ionization mass spectrometry(ESI-MS),crystal structure analysis and calculating bond-energ of trans-RuCl2(py)4.Experimental results suggested that the initial coordination of propylene oxide is likely to occur first through the chloride ligand replacement in trans-RuCl2(py)4;a nucleophilic attack of the chloride anion on the less sterically hindered-carbon atom of the coordinated propylene oxide is responsible for the epoxide ring-opening;CO2 is succeedingly inserted into the Ru-O bond and ring-closure happens subsequently yielding the cyclic carbonate. |
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| Keywords: | ruthenium complex catalysis carbon dioxide reaction mechanism |
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