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1.发明授权公开(公告)号:US08846558B2
公开(公告)日:2014-09-30
申请号:US12460115
申请日:2009-07-14
申请人: Chil-Hung Cheng , Christopher Jones , Sankar Nair , Ronald R. Chance , Benjamin A. McCool , Harry W. Deckman
发明人: Chil-Hung Cheng , Christopher Jones , Sankar Nair , Ronald R. Chance , Benjamin A. McCool , Harry W. Deckman
CPC分类号: C01B39/026
摘要: The present invention relates to the modification of the internal surfaces of zeolite crystals via treatment with alcohols containing at least four carbon atoms. The modified zeolites possess high thermal stability and the properties of the modified zeolites can be tailored to provide improved performance for use in separations processes.
摘要翻译: 本发明涉及通过用含有至少四个碳原子的醇处理来改性沸石晶体的内表面。 改性沸石具有高热稳定性,改性沸石的性能可以定制,以提供用于分离方法的改进性能。
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2.发明申请公开(公告)号:US20100016619A1
公开(公告)日:2010-01-21
申请号:US12460115
申请日:2009-07-14
申请人: Chil-Hung Cheng , Christopher Jones , Sankar Nair , Ronald R. Chance , Benjamin A. McCool , Harry W. Deckman
发明人: Chil-Hung Cheng , Christopher Jones , Sankar Nair , Ronald R. Chance , Benjamin A. McCool , Harry W. Deckman
IPC分类号: C07F7/21
CPC分类号: C01B39/026
摘要: The present invention relates to the modification of the internal surfaces of zeolite crystals via treatment with alcohols containing at least four carbon atoms. The modified zeolites possess high thermal stability and the properties of the modified zeolites can be tailored to provide improved performance for use in separations processes.
摘要翻译: 本发明涉及通过用含有至少四个碳原子的醇处理来改性沸石晶体的内表面。 改性沸石具有高热稳定性,改性沸石的性能可以定制,以提供用于分离方法的改进性能。
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公开(公告)号:US20110230672A1
公开(公告)日:2011-09-22
申请号:US13049375
申请日:2011-03-16
申请人: Dun-Yen Kang , Sankar Nair , Christopher Jones
发明人: Dun-Yen Kang , Sankar Nair , Christopher Jones
CPC分类号: B82Y30/00 , B82Y40/00 , C01B33/26 , C01G1/02 , C01G17/00 , C01G53/006 , C01P2002/72 , C01P2002/82 , C01P2002/86 , C01P2002/88 , C01P2004/04 , C01P2004/13
摘要: Provided herein are methods for dehydrating single-walled metal oxide nanotubes by heating the SWNT under vacuum at 250-300° C.; methods of dehydroxylating SWNT, comprising heating the SWNT under vacuum at 300-340° C., and methods for maximizing the pore volume of a SWNT, comprising heating the SWNT at 300° C. under vacuum to partially dehydroxylate and dehydrate the SWNT; methods of modifying the inner surface of a single walled aluminosilicate nanotube (SWNT), comprising dehydration or dehydration and dehydroxylation, followed by reacting the SWNT with a derivative under anhydrous conditions to produce a SWNT that is derivatized on its inner surface. The invention also includes single-walled nanotubes produced by the methods of the invention.
摘要翻译: 本文提供了通过在250-300℃真空下加热SWNT来使单壁金属氧化物纳米管脱水的方法。 脱水氧化SWNT的方法,包括在300-340℃下真空加热SWNT,以及使SWNT的孔体积最大化的方法,包括在真空下在300℃下加热SWNT以使SWNT部分脱羟基化和脱水; 改变单壁铝硅酸盐纳米管(SWNT)的内表面的方法,包括脱水或脱水和脱羟基化,然后在无水条件下使SWNT与衍生物反应以产生在其内表面衍生的SWNT。 本发明还包括通过本发明的方法制备的单壁纳米管。
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公开(公告)号:US08637693B2
公开(公告)日:2014-01-28
申请号:US13049375
申请日:2011-03-16
申请人: Dun-Yen Kang , Sankar Nair , Christopher Jones
发明人: Dun-Yen Kang , Sankar Nair , Christopher Jones
CPC分类号: B82Y30/00 , B82Y40/00 , C01B33/26 , C01G1/02 , C01G17/00 , C01G53/006 , C01P2002/72 , C01P2002/82 , C01P2002/86 , C01P2002/88 , C01P2004/04 , C01P2004/13
摘要: Provided herein are methods for dehydrating single-walled metal oxide nanotubes by heating the SWNT under vacuum at 250-300° C.; methods of dehydroxylating SWNT, comprising heating the SWNT under vacuum at 300-340° C., and methods for maximizing the pore volume of a SWNT, comprising heating the SWNT at 300° C. under vacuum to partially dehydroxylate and dehydrate the SWNT; methods of modifying the inner surface of a single walled aluminosilicate nanotube (SWNT), comprising dehydration or dehydration and dehydroxylation, followed by reacting the SWNT with a derivative under anhydrous conditions to produce a SWNT that is derivatized on its inner surface. The invention also includes single-walled nanotubes produced by the methods of the invention.
摘要翻译: 本文提供了通过在250-300℃真空下加热SWNT来使单壁金属氧化物纳米管脱水的方法。 脱水氧化SWNT的方法,包括在300-340℃下真空加热SWNT,以及使SWNT的孔体积最大化的方法,包括在真空下在300℃下加热SWNT以使SWNT部分脱羟基化和脱水; 改变单壁铝硅酸盐纳米管(SWNT)的内表面的方法,包括脱水或脱水和脱羟基化,然后在无水条件下使SWNT与衍生物反应以产生在其内表面衍生的SWNT。 本发明还包括通过本发明的方法制备的单壁纳米管。
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公开(公告)号:US08568517B2
公开(公告)日:2013-10-29
申请号:US13209957
申请日:2011-08-15
IPC分类号: B01D53/22
CPC分类号: B01D53/228 , B01D67/0046 , B01D67/0058 , B01D67/0079 , B01D67/0088 , B01D69/02 , B01D69/08 , B01D69/12 , B01D69/141 , B01D69/148 , B01D71/027 , B01D71/70 , B01D2323/14 , B01D2323/46 , B01D2325/02 , B01D2325/28
摘要: A gas separation device comprising a porous support structure comprising polymeric hollow fibers, and an inorganic mesoporous membrane disposed on the porous support structure is disclosed. The inorganic mesoporous membrane is uniform and free of defects. Further, the inorganic mesoporous membrane comprises a network of interconnected three-dimensional pores that interconnect with the porous support structure. The gas permeances of the inorganic mesoporous membrane is substantially higher than the gas permeances of the polymeric hollow fibers. A method of fabricating the gas separation device is also disclosed.
摘要翻译: 公开了一种气体分离装置,其包括包含聚合物中空纤维的多孔支撑结构和设置在多孔支撑结构上的无机介孔膜。 无机介孔膜均匀且无缺陷。 此外,无机介孔膜包括与多孔支撑结构互连的互连的三维孔的网络。 无机介孔膜的气体渗透率显着高于聚合物中空纤维的气体渗透性。 还公开了一种制造气体分离装置的方法。
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公开(公告)号:US08668764B2
公开(公告)日:2014-03-11
申请号:US13399645
申请日:2012-02-17
申请人: Andrew Brown , Sankar Nair , David Sholl , Cantwell Carson
发明人: Andrew Brown , Sankar Nair , David Sholl , Cantwell Carson
IPC分类号: B01D53/22
CPC分类号: B01D53/228 , B01D71/028 , B01D2256/10 , B01D2256/16 , B01D2256/245 , Y02C10/10
摘要: MOF nanocrystals having a narrow size distribution, as well as methods of making and using same are disclosed.
摘要翻译: 公开了具有窄尺寸分布的MOF纳米晶体以及制造和使用方法。
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公开(公告)号:US20130313193A1
公开(公告)日:2013-11-28
申请号:US13897939
申请日:2013-05-20
申请人: Sankar Nair , Andrew Brown , Christopher W. Jones
发明人: Sankar Nair , Andrew Brown , Christopher W. Jones
CPC分类号: B01D53/228 , B01D67/0051 , B01D67/0079 , B01D69/148 , B01D71/028 , B01D2257/504 , Y02C10/10
摘要: The growth of continuous MOF membranes on porous polymeric supports is reported, wherein a dip-coating procedure is used to deposit a layer of seed MOF nanocrystals on the surfaces of porous polymers, preferably in the form of hollow fibers, and polycrystalline MOF membranes are subsequently grown at temperatures as low as 65° C. from precursor solutions. The present work opens the road to inexpensive and scalable fabrication of MOF membranes for large-scale separation applications.
摘要翻译: 报道了连续MOF膜在多孔聚合物载体上的生长,其中浸涂过程用于在多孔聚合物的表面上沉积一层种子MOF纳米晶体,优选以中空纤维的形式,并且多晶MOF膜随后 在低于65℃的温度下从前体溶液中生长。 目前的工作打开了用于大规模分离应用的廉价和可扩展的MOF膜制造的道路。
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公开(公告)号:US20110320176A1
公开(公告)日:2011-12-29
申请号:US12971132
申请日:2010-12-17
申请人: Emmanuel Haldoupis , Seda Keskin , Sankar Nair , David S. Shol
发明人: Emmanuel Haldoupis , Seda Keskin , Sankar Nair , David S. Shol
IPC分类号: G06F17/10
CPC分类号: G06F19/704 , C40B30/02
摘要: This invention relates to a method for characterizing the pores of reticulated framework structures and using these characteristics to predict the actual performance characteristics of the reticulated framework structures as membranes for gas separation, and other purposes.
摘要翻译: 本发明涉及一种用于表征网状骨架结构的孔的方法,并使用这些特征来预测网状骨架结构作为气体分离膜和其它目的的实际性能特征。
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公开(公告)号:US07835870B2
公开(公告)日:2010-11-16
申请号:US11264452
申请日:2005-11-01
IPC分类号: G01N33/48
CPC分类号: C12Q1/68 , C12Q2565/631 , C12Q2565/125 , C12Q2525/204
摘要: Systems and methods are disclosed for evaluating the length of elongated elements in a sample. The disclosed systems and methods may include using a direct current stimulus to determine a direct current base length region corresponding to at least a portion of the sample. Furthermore, the disclosed systems and methods may include using an alternating current stimulus to determine that the direct current base length region corresponds to a first set of elongated elements and a second set of elongated elements. The first set of elongated elements may have a first base length and the second set of elongated elements may have a second base length. The elongated elements may comprise, for example, chain molecules, deoxyribonucleic acid (DNA), ribonucleic acid (RNA), or proteins. Furthermore, the disclosed systems and methods may include measuring an ion current through a nanopore, the ion current produced by the alternating current stimulus.
摘要翻译: 公开了用于评估样品中细长元件的长度的系统和方法。 所公开的系统和方法可以包括使用直流电刺激来确定对应于样品的至少一部分的直流电流基极长度区域。 此外,所公开的系统和方法可以包括使用交流电刺激来确定直流基极长度区域对应于第一组细长元件和第二组细长元件。 第一组细长元件可以具有第一基底长度,并且第二组细长元件可以具有第二基底长度。 细长元件可以包括例如链分子,脱氧核糖核酸(DNA),核糖核酸(RNA)或蛋白质。 此外,所公开的系统和方法可以包括测量通过纳米孔的离子电流,即由交流电刺激产生的离子电流。
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公开(公告)号:US20070099191A1
公开(公告)日:2007-05-03
申请号:US11264452
申请日:2005-11-01
CPC分类号: C12Q1/68 , C12Q2565/631 , C12Q2565/125 , C12Q2525/204
摘要: Systems and methods are disclosed for evaluating the length of elongated elements in a sample. The disclosed systems and methods may include using a direct current stimulus to determine a direct current base length region corresponding to at least a portion of the sample. Furthermore, the disclosed systems and methods may include using an alternating current stimulus to determine that the direct current base length region corresponds to a first set of elongated elements and a second set of elongated elements. The first set of elongated elements may have a first base length and the second set of elongated elements may have a second base length. The elongated elements may comprise, for example, chain molecules, deoxyribonucleic acid (DNA), ribonucleic acid (RNA), or proteins. Furthermore, the disclosed systems and methods may include measuring an ion current through a nanopore, the ion current produced by the alternating current stimulus.
摘要翻译: 公开了用于评估样品中细长元件的长度的系统和方法。 所公开的系统和方法可以包括使用直流电刺激来确定对应于样品的至少一部分的直流电流基极长度区域。 此外,所公开的系统和方法可以包括使用交流电刺激来确定直流基极长度区域对应于第一组细长元件和第二组细长元件。 第一组细长元件可以具有第一基底长度,并且第二组细长元件可以具有第二基底长度。 细长元件可以包括例如链分子,脱氧核糖核酸(DNA),核糖核酸(RNA)或蛋白质。 此外,所公开的系统和方法可以包括测量通过纳米孔的离子电流,即由交流电刺激产生的离子电流。
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