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1.发明申请Chelating Carbene Ligand Precursors and Their Use in the Synthesis of Metathesis Catalysts 审中-公开螯合碳烯配体前体及其在复分解催化剂合成中的应用公开(公告)号:US20150018559A1
公开(公告)日:2015-01-15
申请号:US14272859
申请日:2014-05-08
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin methathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various methathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene methathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type methathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
摘要翻译: 公开了用于制备烯烃复合催化剂的螯合配体前体。 得到的催化剂是能够有效促进各种复合反应的空气稳定的单体物质,其可以从反应混合物中回收并重复使用。 使用内部烯烃化合物,特别是β-取代的苯乙烯作为配体前体。 与末端烯烃化合物如未取代的苯乙烯相比,β-取代的苯乙烯更容易制备成本更低,更稳定,因为它们不易于自发聚合。 公开了不使用CuCl制备螯合 - 卡宾络合催化剂的方法。 这通过用有机酸,无机酸,温和氧化剂甚至水代替它来消除对CuCl的需要,导致Hoveyda型复分解催化剂的高产率。 本发明提供了一种制备螯合碳烯复分解催化剂的有效方法,该方法是通过在高浓度配体前体中合适的钌络合物,然后从有机溶剂中结晶而制备。
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2.发明授权Chelating carbene ligand precursors and their use in the synthesis of metathesis catalysts 有权螯合卡宾配体前体及其在复分解催化剂合成中的应用公开(公告)号:US07268242B2
公开(公告)日:2007-09-11
申请号:US11344637
申请日:2006-01-31
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin metathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various metathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene metathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type metathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
摘要翻译: 公开了用于制备烯烃复分解催化剂的螯合配体前体。 所得催化剂是能够有效促进各种复分解反应的空气稳定的单体物质,其可以从反应混合物中回收并重复使用。 使用内部烯烃化合物,特别是β-取代的苯乙烯作为配体前体。 与末端烯烃化合物如未取代的苯乙烯相比,β-取代的苯乙烯更容易制备成本更低,更稳定,因为它们不易于自发聚合。 公开了不使用CuCl制备螯合 - 碳烯复分解催化剂的方法。 这通过用有机酸,无机酸,温和氧化剂甚至水代替它来消除对CuCl的需要,导致Hoveyda型复分解催化剂的高产率。 本发明提供了一种制备螯合碳烯复分解催化剂的有效方法,该方法是通过在高浓度配体前体中合适的钌络合物,然后从有机溶剂中结晶而制备。
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3.发明申请公开(公告)号:US20130172568A1
公开(公告)日:2013-07-04
申请号:US13542607
申请日:2012-07-05
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
IPC分类号: C07F15/00
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin methathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various methathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene methathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type methathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
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4.发明授权Chelating carbene ligand precursors and their use in the synthesis of metathesis catalysts 有权螯合卡宾配体前体及其在复分解催化剂合成中的应用公开(公告)号:US06620955B1
公开(公告)日:2003-09-16
申请号:US10295773
申请日:2002-11-15
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
IPC分类号: C07F1500
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin metathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various metathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene metathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type metathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
摘要翻译: 公开了用于制备烯烃复分解催化剂的螯合配体前体。 所得催化剂是能够有效促进各种复分解反应的空气稳定的单体物质,其可以从反应混合物中回收并重复使用。 使用内部烯烃化合物,特别是β-取代的苯乙烯作为配体前体。 与末端烯烃化合物如未取代的苯乙烯相比,β-取代的苯乙烯更容易制备成本更低,更稳定,因为它们不易于自发聚合。 公开了不使用CuCl制备螯合 - 碳烯复分解催化剂的方法。 这通过用有机酸,无机酸,温和氧化剂甚至水代替它来消除对CuCl的需要,导致Hoveyda型复分解催化剂的高产率。 本发明提供了一种制备螯合碳烯复分解催化剂的有效方法,该方法是通过在高浓度配体前体中合适的钌络合物,然后从有机溶剂中结晶而制备。
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5.发明授权Chelating carbene ligand precursors and their use in the synthesis of metathesis catalysts 有权螯合卡宾配体前体及其在复分解催化剂合成中的应用公开(公告)号:US08754249B2
公开(公告)日:2014-06-17
申请号:US13542607
申请日:2012-07-05
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin methathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various methathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene methathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type methathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
摘要翻译: 公开了用于制备烯烃复合催化剂的螯合配体前体。 得到的催化剂是能够有效促进各种复合反应的空气稳定的单体物质,其可以从反应混合物中回收并重复使用。 使用内部烯烃化合物,特别是β-取代的苯乙烯作为配体前体。 与末端烯烃化合物如未取代的苯乙烯相比,β-取代的苯乙烯更容易制备成本更低,更稳定,因为它们不易于自发聚合。 公开了不使用CuCl制备螯合 - 卡宾络合催化剂的方法。 这通过用有机酸,无机酸,温和氧化剂甚至水代替它来消除对CuCl的需要,导致Hoveyda型复分解催化剂的高产率。 本发明提供了一种制备螯合碳烯复分解催化剂的有效方法,该方法是通过在高浓度配体前体中合适的钌络合物,然后从有机溶剂中结晶而制备。
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6.发明授权公开(公告)号:US07026495B1
公开(公告)日:2006-04-11
申请号:US10665734
申请日:2003-09-16
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin metathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various metathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene metathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type metathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
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7.发明授权Chelating carbene ligand precursors and their use in the synthesis of metathesis catalysts 有权螯合卡宾配体前体及其在复分解催化剂合成中的应用公开(公告)号:US07820843B2
公开(公告)日:2010-10-26
申请号:US12333125
申请日:2008-12-11
申请人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
发明人: Richard L. Pederson , Jason K. Woertink , Christopher M. Haar , David E. Gindelberger , Yann Schrodi
CPC分类号: B01J31/2414 , B01J31/1805 , B01J31/2204 , B01J31/2208 , B01J31/2265 , B01J31/2273 , B01J31/2278 , B01J31/2404 , B01J2231/50 , B01J2231/54 , B01J2231/543 , B01J2531/821 , B01J2531/825 , C07F15/002 , C07F15/0046
摘要: Chelating ligand precursors for the preparation of olefin methathesis catalysts are disclosed. The resulting catalysts are air stable monomeric species capable of promoting various methathesis reactions efficiently, which can be recovered from the reaction mixture and reused. Internal olefin compounds, specifically beta-substituted styrenes, are used as ligand precursors. Compared to terminal olefin compounds such as unsubstituted styrenes, the beta-substituted styrenes are easier and less costly to prepare, and more stable since they are less prone to spontaneous polymerization. Methods of preparing chelating-carbene methathesis catalysts without the use of CuCl are disclosed. This eliminates the need for CuCl by replacing it with organic acids, mineral acids, mild oxidants or even water, resulting in high yields of Hoveyda-type methathesis catalysts. The invention provides an efficient method for preparing chelating-carbene metathesis catalysts by reacting a suitable ruthenium complex in high concentrations of the ligand precursors followed by crystallization from an organic solvent.
摘要翻译: 公开了用于制备烯烃复合催化剂的螯合配体前体。 得到的催化剂是能够有效促进各种复合反应的空气稳定的单体物质,其可以从反应混合物中回收并重复使用。 使用内部烯烃化合物,特别是β-取代的苯乙烯作为配体前体。 与末端烯烃化合物如未取代的苯乙烯相比,β-取代的苯乙烯更容易制备成本更低,更稳定,因为它们不易于自发聚合。 公开了不使用CuCl制备螯合 - 卡宾络合催化剂的方法。 这通过用有机酸,无机酸,温和氧化剂甚至水代替它来消除对CuCl的需要,导致Hoveyda型复分解催化剂的高产率。 本发明提供了一种制备螯合碳烯复分解催化剂的有效方法,该方法是通过在高浓度配体前体中合适的钌络合物,然后从有机溶剂中结晶而制备。
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公开(公告)号:US09120742B2
公开(公告)日:2015-09-01
申请号:US12422096
申请日:2009-04-10
申请人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy
发明人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy
IPC分类号: C07C69/52 , C07C57/13 , C07C67/333 , B01J31/22 , C07C6/04 , C07C67/307 , C07C67/31 , C07C67/475
CPC分类号: C07C67/475 , B01J31/2265 , B01J31/2278 , B01J2231/543 , B01J2531/821 , C07C6/04 , C07C67/02 , C07C67/303 , C07C67/307 , C07C67/31 , C07C67/333 , C07C2531/22 , C07C2531/24 , C07F7/1884 , C07C11/02 , C07C69/65 , C07C69/734 , C07C69/533 , C07C69/593 , C07C69/73
摘要: Described are methods of making organic compounds by metathesis chemistry. The methods of the invention are particularly useful for making industrially-important organic compounds beginning with starting compositions derived from renewable feedstocks, such as natural oils. The methods make use of a cross-metathesis step with an olefin compound to produce functionalized alkene intermediates having a pre-determined double bond position. Once isolated, the functionalized alkene intermediate can be self-metathesized or cross-metathesized (e.g., with a second functionalized alkene) to produce the desired organic compound or a precursor thereto. The method may be used to make bifunctional organic compounds, such as diacids, diesters, dicarboxylate salts, acid/esters, acid/amines, acid/alcohols, acid/aldehydes, acid/ketones, acid/halides, acid/nitriles, ester/amines, ester/alcohols, ester/aldehydes, ester/ketones, ester/halides, ester/nitriles, and the like.
摘要翻译: 描述的是通过复分解化学制备有机化合物的方法。 本发明的方法特别可用于制备工业上重要的有机化合物,起始于可再生原料如天然油的组合物。 该方法利用与烯烃化合物的交叉复分解步骤来制备具有预定双键位置的官能化烯烃中间体。 一旦分离,官能化的烯烃中间体可以是自我化的或交叉的(例如用第二官能化的烯烃)产生所需的有机化合物或其前体。 酸/酸,酸/酮,酸/卤化物,酸/腈,酯/酯,酸/ 胺,酯/醇,酯/醛,酯/酮,酯/卤化物,酯/腈等。
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公开(公告)号:US08895771B2
公开(公告)日:2014-11-25
申请号:US12422109
申请日:2009-04-10
申请人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy , Alexandre A. Pletnev
发明人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy , Alexandre A. Pletnev
IPC分类号: C07C253/10 , B01J31/22 , C07C6/04 , C11C3/04 , C07C45/44 , C07C227/10 , C07C51/08 , C07C51/353 , C07C67/333
CPC分类号: C07C253/10 , B01J31/2265 , B01J31/2278 , B01J2231/54 , B01J2531/821 , C07C6/04 , C07C45/44 , C07C51/08 , C07C51/353 , C07C67/08 , C07C67/31 , C07C67/313 , C07C67/333 , C07C67/347 , C07C227/04 , C07C227/10 , C07C2531/24 , C11C3/04 , Y02P20/127 , C07C57/03 , C07C57/42 , C07C59/01 , C07C59/325 , C07C69/533 , C07C229/08 , C07C255/19
摘要: The invention is directed to methods of making organic compounds by metathesis and hydrocyanation. The method of the invention may be used, for example, to make industrial important organic compounds such as diacids, diesters, acid-amines, acid-alcohols, acid-nitriles, ester-amines, ester-alcohols, and ester-nitriles.
摘要翻译: 本发明涉及通过复分解和氢氰化制备有机化合物的方法。 本发明的方法可用于例如制备工业上重要的有机化合物如二酸,二酯,酸 - 胺,酸 - 醇,酸 - 腈,酯 - 胺,酯 - 醇和酯 - 腈。
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公开(公告)号:US20090259065A1
公开(公告)日:2009-10-15
申请号:US12422109
申请日:2009-04-10
申请人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy , Alexandre A. Pletnev
发明人: Timothy W. Abraham , Hiroki Kaido , Choon Woo Lee , Richard L. Pederson , Yann Schrodi , Michael John Tupy , Alexandre A. Pletnev
IPC分类号: C07C253/10 , C07C229/12 , C07C69/67 , C07C69/675 , C07C211/03 , C07C59/01 , C07C55/02
CPC分类号: C07C253/10 , B01J31/2265 , B01J31/2278 , B01J2231/54 , B01J2531/821 , C07C6/04 , C07C45/44 , C07C51/08 , C07C51/353 , C07C67/08 , C07C67/31 , C07C67/313 , C07C67/333 , C07C67/347 , C07C227/04 , C07C227/10 , C07C2531/24 , C11C3/04 , Y02P20/127 , C07C57/03 , C07C57/42 , C07C59/01 , C07C59/325 , C07C69/533 , C07C229/08 , C07C255/19
摘要: The invention is directed to methods of making organic compounds by metathesis and hydrocyanation. The method of the invention may be used, for example, to make industrial important organic compounds such as diacids, diesters, acid-amines, acid-alcohols, acid-nitriles, ester-amines, ester-alcohols, and ester-nitriles.
摘要翻译: 本发明涉及通过复分解和氢氰化制备有机化合物的方法。 本发明的方法可用于例如制备工业上重要的有机化合物如二酸,二酯,酸 - 胺,酸 - 醇,酸 - 腈,酯 - 胺,酯 - 醇和酯 - 腈。
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