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公开(公告)号:US20150023858A1
公开(公告)日:2015-01-22
申请号:US14335566
申请日:2014-07-18
申请人: James M. Tour , Zheng Yan , Zhiwei Peng , Robert H. Hauge , Yilun Li
发明人: James M. Tour , Zheng Yan , Zhiwei Peng , Robert H. Hauge , Yilun Li
CPC分类号: C01B32/956 , B29C39/003 , B29K2105/124 , B29K2995/0005 , B29L2007/00 , C01B21/064 , C01B32/178 , C01B32/18 , C01B32/184 , C01B32/186 , C01P2004/13
摘要: In some embodiments, the present disclosure pertains to methods of forming a reinforcing material by: (1) depositing a first material onto a catalyst surface; and (2) forming a second material on the catalyst surface, where the second material is derived from and associated with the first material. In some embodiments, the first material includes, without limitation, carbon nanotubes, graphene nanoribbons, boron nitride nanotubes, chalcogenide nanotubes, carbon onions, and combinations thereof. In some embodiments, the formed second material includes, without limitation, graphene, hexagonal boron nitride, chalcogenides, and combinations thereof. In additional embodiments, the methods of the present disclosure also include a step of separating the formed reinforcing material from the catalyst surface, and transferring the separated reinforcing material onto a substrate without the use of polymers. Additional embodiments of the present disclosure pertain to reinforcing materials formed by the aforementioned methods.
摘要翻译: 在一些实施方案中,本公开涉及通过以下步骤形成增强材料的方法:(1)将第一材料沉积到催化剂表面上; 和(2)在所述催化剂表面上形成第二材料,其中所述第二材料衍生并与所述第一材料相关联。 在一些实施方案中,第一材料包括但不限于碳纳米管,石墨烯纳米带,氮化硼纳米管,硫族化物纳米管,碳鎓和它们的组合。 在一些实施例中,所形成的第二材料包括但不限于石墨烯,六方氮化硼,硫族化合物及其组合。 在另外的实施方案中,本公开的方法还包括将形成的增强材料从催化剂表面分离并将分离的增强材料转移到基材上而不使用聚合物的步骤。 本公开的另外的实施方案涉及通过上述方法形成的增强材料。
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公开(公告)号:US09896340B2
公开(公告)日:2018-02-20
申请号:US14335566
申请日:2014-07-18
申请人: James M. Tour , Zheng Yan , Zhiwei Peng , Robert H. Hauge , Yilun Li
发明人: James M. Tour , Zheng Yan , Zhiwei Peng , Robert H. Hauge , Yilun Li
IPC分类号: B29K105/12 , B29L7/00 , C01B21/064 , C01B31/36 , C01B31/04 , C01B31/02 , B29C39/00
CPC分类号: C01B32/956 , B29C39/003 , B29K2105/124 , B29K2995/0005 , B29L2007/00 , C01B21/064 , C01B32/178 , C01B32/18 , C01B32/184 , C01B32/186 , C01P2004/13
摘要: In some embodiments, the present disclosure pertains to methods of forming a reinforcing material by: (1) depositing a first material onto a catalyst surface; and (2) forming a second material on the catalyst surface, where the second material is derived from and associated with the first material. In some embodiments, the first material includes, without limitation, carbon nanotubes, graphene nanoribbons, boron nitride nanotubes, chalcogenide nanotubes, carbon onions, and combinations thereof. In some embodiments, the formed second material includes, without limitation, graphene, hexagonal boron nitride, chalcogenides, and combinations thereof. In additional embodiments, the methods of the present disclosure also include a step of separating the formed reinforcing material from the catalyst surface, and transferring the separated reinforcing material onto a substrate without the use of polymers. Additional embodiments of the present disclosure pertain to reinforcing materials formed by the aforementioned methods.
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公开(公告)号:US20160031711A1
公开(公告)日:2016-02-04
申请号:US14754983
申请日:2015-06-30
申请人: James M. Tour , Zhengzong Sun , Zheng Yan , Gedeng Ruan , Zhiwei Peng
发明人: James M. Tour , Zhengzong Sun , Zheng Yan , Gedeng Ruan , Zhiwei Peng
IPC分类号: C01B31/04
CPC分类号: C01B32/194 , C01B32/184 , C01B2204/02 , C01B2204/04
摘要: In various embodiments, the present disclosure provides methods of forming graphene films by: (1) depositing a non-gaseous carbon source onto a catalyst surface; (2) exposing the non-gaseous carbon source to at least one gas with a flow rate; and (3) initiating the conversion of the non-gaseous carbon source to the graphene film, where the thickness of the graphene film is controllable by the gas flow rate. Additional embodiments of the present disclosure pertain to graphene films made in accordance with the methods of the present disclosure.
摘要翻译: 在各种实施方案中,本公开提供了通过以下步骤形成石墨烯膜的方法:(1)将非气态碳源沉积在催化剂表面上; (2)将非气态碳源以流量暴露于至少一种气体; 和(3)开始将非气态碳源转化为石墨烯膜,其中石墨烯膜的厚度可由气体流速控制。 本公开的另外的实施方案涉及根据本公开的方法制备的石墨烯膜。
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公开(公告)号:US20140120270A1
公开(公告)日:2014-05-01
申请号:US14113856
申请日:2011-09-09
申请人: James M. Tour , Zheng Yan , Zhiwei Peng , Zhengzong Sun
发明人: James M. Tour , Zheng Yan , Zhiwei Peng , Zhengzong Sun
IPC分类号: C01B31/04
CPC分类号: C01B32/184 , B01J23/755 , B82Y30/00 , B82Y40/00 , C01B32/186 , C23C16/26 , H01L21/02115 , H01L21/02263
摘要: The present invention provides methods of forming graphene films on various non-catalyst surfaces by applying a carbon source and a catalyst to the surface and initiating graphene film formation. In some embodiments, graphene film formation may be initiated by induction heating. In some embodiments, the carbon source is applied to the non-catalyst surface before the catalyst is applied to the surface. In other embodiments, the catalyst is applied to the non-catalyst surface before the carbon source is applied to the surface. In further embodiments, the catalyst and the carbon source are applied to the non-catalyst surface at the same time. Further embodiments of the present invention may also include a step of separating the catalyst from the formed graphene film, such as by acid etching.
摘要翻译: 本发明提供了在各种非催化剂表面上形成石墨烯薄膜的方法,该方法是通过将碳源和催化剂施加在表面上并引发石墨烯薄膜形成。 在一些实施例中,可以通过感应加热来开始石墨烯膜的形成。 在一些实施方案中,在将催化剂施加到表面之前将碳源施加到非催化剂表面。 在其它实施方案中,在将碳源施加到表面之前,将催化剂施加到非催化剂表面。 在另外的实施方案中,催化剂和碳源同时被施加到非催化剂表面。 本发明的其它实施方案还可以包括例如通过酸蚀刻从形成的石墨烯膜分离催化剂的步骤。
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5.发明申请公开(公告)号:US20100028247A1
公开(公告)日:2010-02-04
申请号:US12496100
申请日:2009-07-01
申请人: Michael S. Strano , Monica Ursey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge
发明人: Michael S. Strano , Monica Ursey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge
CPC分类号: D01F11/14 , B82Y30/00 , B82Y40/00 , C01B32/172 , C01B32/174 , C01B2202/02 , C01B2202/22 , C01P2002/82 , C01P2002/84 , C01P2004/13 , C01P2004/133 , C01P2004/64 , C09C1/44 , C09C1/48 , C09C1/56 , Y10S977/734 , Y10S977/742 , Y10S977/745 , Y10S977/748
摘要: The present invention is directed toward methods of selectively functionalizing carbon nanotubes of a specific type or range of types, based on their electronic properties, using diazonium chemistry. The present invention is also directed toward methods of separating carbon nanotubes into populations of specific types or range(s) of types via selective functionalization and electrophoresis, and also to the novel compositions generated by such separations.
摘要翻译: 本发明涉及使用重氮化学,基于其电子性质,选择性官能化特定类型或范围类型的碳纳米管的方法。 本发明还涉及通过选择性官能化和电泳将碳纳米管分离成特定类型或范围的种类的方法,以及通过这种分离产生的新型组合物的方法。
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公开(公告)号:US07572426B2
公开(公告)日:2009-08-11
申请号:US10566073
申请日:2004-07-29
申请人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge , Richard E. Smalley
发明人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge , Richard E. Smalley
CPC分类号: D01F11/14 , B82Y30/00 , B82Y40/00 , C01B32/172 , C01B32/174 , C01B2202/02 , C01B2202/22 , C01P2002/82 , C01P2002/84 , C01P2004/13 , C01P2004/133 , C01P2004/64 , C09C1/44 , C09C1/48 , C09C1/56 , Y10S977/734 , Y10S977/742 , Y10S977/745 , Y10S977/748
摘要: The present invention is directed toward methods of selectively functionalizing carbon nanotubes of a specific type or range of types, based on their electronic properties, using diazonium chemistry. The present invention is also directed toward methods of separating carbon nanotubes into populations of specific types or range(s) of types via selective functionalization and electrophoresis, and also to the novel compositions generated by such separations.
摘要翻译: 本发明涉及使用重氮化学,基于其电子性质,选择性官能化特定类型或范围类型的碳纳米管的方法。 本发明还涉及通过选择性官能化和电泳将碳纳米管分离成特定类型或范围的种类的方法,以及通过这种分离产生的新型组合物的方法。
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7.发明授权公开(公告)号:US07887774B2
公开(公告)日:2011-02-15
申请号:US12496100
申请日:2009-07-01
申请人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H Hauge , Richard E. Smalley , Irene Marie Marek, legal representative
发明人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H Hauge , Richard E. Smalley
IPC分类号: C01B31/02 , C01B31/00 , C07C245/20 , D01F9/12 , C08K9/04
CPC分类号: D01F11/14 , B82Y30/00 , B82Y40/00 , C01B32/172 , C01B32/174 , C01B2202/02 , C01B2202/22 , C01P2002/82 , C01P2002/84 , C01P2004/13 , C01P2004/133 , C01P2004/64 , C09C1/44 , C09C1/48 , C09C1/56 , Y10S977/734 , Y10S977/742 , Y10S977/745 , Y10S977/748
摘要: The present invention is directed toward methods of selectively functionalizing carbon nanotubes of a specific type or range of types, based on their electronic properties, using diazonium chemistry. The present invention is also directed toward methods of separating carbon nanotubes into populations of specific types or range(s) of types via selective functionalization and electrophoresis, and also to the novel compositions generated by such separations.
摘要翻译: 本发明涉及使用重氮化学,基于其电子性质,选择性官能化特定类型或范围类型的碳纳米管的方法。 本发明还涉及通过选择性官能化和电泳将碳纳米管分离成特定类型或范围的种类的方法,以及通过这种分离产生的新型组合物的方法。
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公开(公告)号:US08562935B2
公开(公告)日:2013-10-22
申请号:US10575352
申请日:2004-10-14
申请人: Robert H. Hauge , Andrew R. Barron , James M. Tour , Howard K. Schmidt , W. Edward Billups , Christopher A. Dyke , Valerie C. Moore , Elizabeth Whitsitt , Robin E. Anderson , Ramon Colorado, Jr. , Michael P. Stewart , Douglas C. Ogrin , Irene M. Marek
发明人: Richard E. Smalley , Robert H. Hauge , Andrew R. Barron , James M. Tour , Howard K. Schmidt , W. Edward Billups , Christopher A. Dyke , Valerie C. Moore , Elizabeth Whitsitt , Robin E. Anderson , Ramon Colorado, Jr. , Michael P. Stewart , Douglas C. Ogrin
IPC分类号: D01F9/127
CPC分类号: B82Y40/00 , B01J23/881 , B01J27/22 , B82Y30/00 , C01B3/0021 , C01B32/162 , C01B32/172 , C01B32/176 , C01B2202/02 , C01B2202/04 , C01B2202/06 , C01B2202/36 , Y02E60/325
摘要: The present invention is directed towards methods (processes) of providing large quantities of carbon nanotubes (CNTs) of defined diameter and chirality (i.e., precise populations). In such processes, CNT seeds of a pre-selected diameter and chirality are grown to many (e.g., hundreds) times their original length. This is optionally followed by cycling some of the newly grown material back as seed material for regrowth. Thus, the present invention provides for the large-scale production of precise populations of CNTs, the precise composition of such populations capable of being optimized for a particular application (e.g., hydrogen storage). The present invention is also directed to complexes of CNTs and transition metal catalyst precurors, such complexes typically being formed en route to forming CNT seeds.
摘要翻译: 本发明涉及提供大量具有规定直径和手性(即精确群体)的碳纳米管(CNT)的方法(方法)。 在这种方法中,预先选择的直径和手性的CNT种子生长到其原始长度的许多(例如,数百)倍。 随后可以将一些新生成的材料循环回种子材料再生。 因此,本发明提供了大规模生产精确的碳纳米管群体,能够针对特定应用(例如,氢存储)优化的这些群体的精确组成。 本发明还涉及CNT和过渡金属催化剂前体的复合物,这些络合物通常在形成CNT晶种途中形成。
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公开(公告)号:US20080213162A1
公开(公告)日:2008-09-04
申请号:US10575352
申请日:2004-10-14
申请人: Richard E. Smalley , Irene M. Marek , Robert H. Hauge , Andrew R. Barron , James M. Tour , Howard K. Schmidt , W. Edward Billups , Christopher A. Dyke , Valerie C. Moore , Elizabeth Whitsitt , Robin E. Anderson , Ramon Colorado , Michael P. Stewart , Douglas C. Ogrin
发明人: Richard E. Smalley , Irene M. Marek , Robert H. Hauge , Andrew R. Barron , James M. Tour , Howard K. Schmidt , W. Edward Billups , Christopher A. Dyke , Valerie C. Moore , Elizabeth Whitsitt , Robin E. Anderson , Ramon Colorado , Michael P. Stewart , Douglas C. Ogrin
IPC分类号: C09C1/44
CPC分类号: B82Y40/00 , B01J23/881 , B01J27/22 , B82Y30/00 , C01B3/0021 , C01B32/162 , C01B32/172 , C01B32/176 , C01B2202/02 , C01B2202/04 , C01B2202/06 , C01B2202/36 , Y02E60/325
摘要: The present invention is directed towards methods (processes) of providing large quantities of carbon nanotubes (CNTs) of defined diameter and chirality (i.e., precise populations). In such processes, CNT seeds of a pre-selected diameter and chirality are grown to many (e.g., hundreds) times their original length. This is optionally followed by cycling some of the newly grown material back as seed material for regrowth. Thus, the present invention provides for the large-scale production of precise populations of CNTs, the precise composition of such populations capable of being optimized for a particular application (e.g., hydrogen storage). The present invention is also directed to complexes of CNTs and transition metal catalyst precurors, such complexes typically being formed en route to forming CNT seeds.
摘要翻译: 本发明涉及提供大量具有规定直径和手性(即,精确群体)的大量碳纳米管(CNT)的方法(方法)。 在这种方法中,预先选择的直径和手性的CNT种子生长到其原始长度的许多(例如,数百)倍。 随后可以将一些新生成的材料循环回种子材料再生。 因此,本发明提供了大规模生产精确的碳纳米管群体,能够针对特定应用(例如,氢存储)优化的这些群体的精确组成。 本发明还涉及CNT和过渡金属催化剂前体的复合物,这些络合物通常在形成CNT晶种途中形成。
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公开(公告)号:US20080063587A1
公开(公告)日:2008-03-13
申请号:US10566073
申请日:2004-07-29
申请人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge , Richard E. Smalley
发明人: Michael S. Strano , Monica Usrey , Paul Barone , Christopher A. Dyke , James M. Tour , W. Carter Kittrell , Robert H. Hauge , Richard E. Smalley
IPC分类号: D01F9/12 , B01D57/02 , C07C245/20
CPC分类号: D01F11/14 , B82Y30/00 , B82Y40/00 , C01B32/172 , C01B32/174 , C01B2202/02 , C01B2202/22 , C01P2002/82 , C01P2002/84 , C01P2004/13 , C01P2004/133 , C01P2004/64 , C09C1/44 , C09C1/48 , C09C1/56 , Y10S977/734 , Y10S977/742 , Y10S977/745 , Y10S977/748
摘要: The present invention is directed toward methods of selectively functionalizing carbon nanotubes of a specific type or range of types, based on their electronic properties, using diazonium chemistry. The present invention is also directed toward methods of separating carbon nanotubes into populations of specific types or range(s) of types via selective functionalization and electrophoresis, and also to the novel compositions generated by such separations.
摘要翻译: 本发明涉及使用重氮化学,基于其电子性质,选择性官能化特定类型或范围类型的碳纳米管的方法。 本发明还涉及通过选择性官能化和电泳将碳纳米管分离成特定类型或范围的种类的方法,以及通过这种分离产生的新型组合物的方法。
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