Patents by Inventor Robert H. Hauge
Robert H. Hauge has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20100008843Abstract: The present invention relates to processes for the purification of single-wall carbon nanotubes (SWNTs). Known methods of single-wall carbon nanotube production result in a single-wall carbon nanotube product that contains single-wall carbon nanotubes in addition to impurities including residual metal catalyst particles and amounts of small amorphous carbon sheets that surround the catalyst particles and appear on the side of the single-wall carbon nanotubes. The present purification processes remove the extraneous carbon as well as metal-containing residual catalyst particles.Type: ApplicationFiled: November 30, 2005Publication date: January 14, 2010Applicant: William Marsh Rice UniversityInventors: Robert H. Hauge, Ya-Qiong Xu, Haiqing Peng, Richard E. Smalley, Irene Morin Marek
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Publication number: 20090294753Abstract: A new and useful nanotube growth substrate conditioning processes is herein disclosed that allows the growth of vertical arrays of carbon nanotubes where the average diameter of the nanotubes can be selected and/or controlled as compared to the prior art.Type: ApplicationFiled: March 5, 2007Publication date: December 3, 2009Applicant: William Marsh Rice UniversityInventors: Robert H. Hauge, Ya-Qiong Xu, Hongwei Shan, Nolan Walker Nicholas, Myung Jong Kim, Howard K. Schmidt, W. Carter Kittrell
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Patent number: 7585420Abstract: The present invention is generally directed to catalyzed hot stamp methods for polishing and/or patterning carbon nanotube-containing substrates. In some embodiments, the substrate, as a carbon nanotube fiber end, is brought into contact with a hot stamp (typically at 200-800° C.), and is kept in contact with the hot stamp until the morphology/patterns on the hot stamp have been transferred to the substrate. In some embodiments, the hot stamp is made of material comprising one or more transition metals (Fe, Ni, Co, Pt, Ag, Au, etc.), which can catalyze the etching reaction of carbon with H2, CO2, H2O, and/or O2. Such methods can (1) polish the carbon nanotube-containing substrate with a microscopically smooth finish, and/or (2) transfer pre-defined patterns from the hot stamp to the substrate. Such polished or patterned carbon nanotube substrates can find application as carbon nanotube electrodes, field emitters, and field emitter arrays for displays and electron sources.Type: GrantFiled: December 14, 2005Date of Patent: September 8, 2009Assignee: William Marsh Rice UniversityInventors: Yuhuang Wang, Robert H. Hauge, Howard K. Schmidt, Myung Jong Kim, W. Carter Kittrell
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Patent number: 7578941Abstract: The present invention is generally directed to new liquid-liquid extraction methods for the length-based separation of carbon nanotubes (CNTs) and other 1-dimensional nanostructures.Type: GrantFiled: November 29, 2005Date of Patent: August 25, 2009Assignee: William Marsh Rice UniversityInventors: Kirk J. Ziegler, Daniel J. Schmidt, Robert H. Hauge, Richard E. Smalley, Irene Morin Marek, legal representative
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Patent number: 7572426Abstract: 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.Type: GrantFiled: July 29, 2004Date of Patent: August 11, 2009Assignee: William Marsh Rice UniversityInventors: Michael S. Strano, Monica Usrey, Paul Barone, Christopher A. Dyke, James M. Tour, W. Carter Kittrell, Robert H. Hauge, Richard E. Smalley
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Patent number: 7494639Abstract: The present invention is directed to methods of purifying carbon nanotubes (CNTs). In general, such methods comprise the following steps: (a) preparing an aqueous slurry of impure CNT material; (b) establishing a source of Fe2+ ions in the slurry to provide a catalytic slurry; (c) adding hydrogen peroxide to the catalytic slurry to provide an oxidative slurry, wherein the Fe2+ ions catalyze the production of hydroxyl radicals; and (d) utilizing the hydroxyl radicals in the oxidative slurry to purify the CNT material and provide purified CNTs.Type: GrantFiled: December 28, 2005Date of Patent: February 24, 2009Assignee: William Marsh Rice UniversityInventors: Irene Morin Marek, legal representative, Yuhuang Wang, Robert H. Hauge, Hongwei Shan, Richard E. Smalley
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Patent number: 7470417Abstract: The present invention is generally directed to methods of ozonating CNTs in fluorinated solvents (fluoro-solvents), wherein such methods provide a less dangerous alternative to existing ozonolysis methods. In some embodiments, such methods comprise the steps of: (a) dispersing carbon nanotubes in a fluoro-solvent to form a dispersion; and (b) reacting ozone with the carbon nanotubes in the dispersion to functionalize the sidewalls of the carbon nanotubes and yield functionalized carbon nanotubes with oxygen-containing functional moieties. In some such embodiments, the fluoro-solvent is a fluorocarbon solvent, such as a perfluorinated polyether.Type: GrantFiled: November 22, 2005Date of Patent: December 30, 2008Assignee: William Marsh Rice UniversityInventors: Kirk J. Ziegler, Jonah Shaver, Robert H. Hauge, Irene Morin Marek, legal representative, Richard E. Smalley
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Publication number: 20080213162Abstract: 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.Type: ApplicationFiled: October 14, 2004Publication date: September 4, 2008Applicant: William Marsh Rice UniversityInventors: 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
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Publication number: 20080210370Abstract: The present invention is directed to the creation of macroscopic materials and objects comprising aligned nanotube segments. The invention entails aligning single-wall carbon nanotube (SWNT) segments that are suspended in a fluid medium and then removing the aligned segments from suspension in a way that macroscopic, ordered assemblies of SWNT are formed. The invention is further directed to controlling the natural proclivity or nanotube segments to self assemble into or ordered structures by modifying the environment of the nanotubes and the history of that environment prior to and during the process. The materials and objects are “macroscopic” in that they are large enough to be seen without the aid of a microscope or of the dimensions of such objects.Type: ApplicationFiled: August 16, 2007Publication date: September 4, 2008Inventors: Richard E. Smalley, Daniel T. Colbert, Ken A. Smith, Deron A. Walters, Michael J. Casavant, Chad B. Huffman, Boris I. Yakobson, Robert H. Hauge, Rajesh Kumar Saini, Wan-Ting Chiang, Xiao Chuan Qin
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Patent number: 7413907Abstract: The present invention is directed toward novel matrix elements, generally comprising functionalized carbon nanotubes, for matrix-assisted laser desorption ionization (MALDI)-mass spectroscopy (MS), methods of making such matrix elements, and to methods of using such matrix elements in MALDI-MS applications, particularly for the analysis of biological molecules. In some embodiments, by carefully tuning the absorption characteristics of the matrix element, biomolecular analytes can be sequenced.Type: GrantFiled: July 28, 2004Date of Patent: August 19, 2008Assignee: William Marsh Rice UniversityInventors: Ramesh Sivarajan, Robert H. Hauge, Terry Marriott
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Publication number: 20080105648Abstract: The present invention is generally directed to catalyzed hot stamp methods for polishing and/or patterning carbon nanotube-containing substrates. In some embodiments, the substrate, as a carbon nanotube fiber end, is brought into contact with a hot stamp (typically at 200-800° C.), and is kept in contact with the hot stamp until the morphology/patterns on the hot stamp have been transferred to the substrate. In some embodiments, the hot stamp is made of material comprising one or more transition metals (Fe, Ni, Co, Pt, Ag, Au, etc.), which can catalyze the etching reaction of carbon with H2, CO2, H2O, and/or O2. Such methods can (1) polish the carbon nanotube-containing substrate with a microscopically smooth finish, and/or (2) transfer pre-defined patterns from the hot stamp to the substrate. Such polished or patterned carbon nanotube substrates can find application as carbon nanotube electrodes, field emitters, and field emitter arrays for displays and electron sources.Type: ApplicationFiled: December 14, 2005Publication date: May 8, 2008Applicant: William Marsh Rice UniversityInventors: Yuhuang Wang, Robert H. Hauge, Howard K. Schmidt, Myung Jong Kim, W. Carter Kittrell
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Publication number: 20080063587Abstract: 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.Type: ApplicationFiled: July 29, 2004Publication date: March 13, 2008Applicant: Board of Trustees of the University of IllinoisInventors: Michael S. Strano, Monica Usrey, Paul Barone, Christopher A. Dyke, James M. Tour, W. Carter Kittrell, Robert H. Hauge, Richard E. Smalley
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Patent number: 7288238Abstract: The present invention involves alewives of highly aligned single-wall carbon nanotubes (SWNT), process for making the same and compositions thereof. The present invention provides a method for effectively making carbon alewives, which are discrete, acicular-shaped aggregates of aligned single-wall carbon nanotubes and resemble the Atlantic fish of the same name. Single-wall carbon nanotube alewives can be conveniently dispersed in materials such as polymers, ceramics, metals, metal oxides and liquids. The process for preparing the alewives comprises mixing single-wall carbon nanotubes with 100% sulfuric acid or a superacid, heating and stirring, and slowly introducing water into the single-wall carbon nanotube/acid mixture to form the alewives. The alewives can be recovered, washed and dried. The properties of the single-wall carbon nanotubes are retained in the alewives.Type: GrantFiled: July 2, 2002Date of Patent: October 30, 2007Assignee: William Marsh Rice UniversityInventors: Richard E. Smalley, Rajesh Kumar Saini, Ramesh Sivarajan, Robert H. Hauge, Virginia Angelica Davis, Matteo Pasquali, Lars Martin Ericson, Satish Kumar, Sreekumar Thaliyil Veedu
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Patent number: 7262266Abstract: The present invention is generally directed to the block copolymerization of rigid rod polymers with carbon nanotubes (CNTs), the CNTs generally being shortened, to form nanotube block copolymers. The present invention is also directed to fibers and other shaped articles made from the nanotube block copolymers of the present invention.Type: GrantFiled: October 25, 2004Date of Patent: August 28, 2007Assignee: William Marsh Rice UniversityInventors: Wen-Fang Hwang, Richard E. Smalley, Robert H. Hauge
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Patent number: 7252812Abstract: This invention is directed to the fluorination (or derivatization with alternative chemical species) of fullerene carbon nanocages as an efficient way to (a) facilitate synthesis of endohedral complexes by a significant reduction or elimination of the barriers for the entry of guest-ions, -atoms or molecules, and (b) to preserve the chemical stability of final product.Type: GrantFiled: November 19, 2003Date of Patent: August 7, 2007Inventors: Boris I. Yakobson, Pavel V. Avramov, Mary Lou Margrave, legal representative, Edward T. Mickelson, Robert H. Hauge, Peter J. Boul, Chad B. Huffman, Richard E. Smalley, John L. Margrave, deceased
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Patent number: 7138100Abstract: A continuous gas-phase method for producing single-wall carbon nanotubes at high catalyst productivity and high yield is disclosed. The method involves the use of a novel in-situ formed catalyst to initiate and grow single-wall carbon nanotubes using a carbon-containing feedstock in a high temperature and pressure process. The catalyst comprises in-situ-generated transition metal particles in contact with in-situ-generated refractory particles. The population of nucleating sites for single-wall carbon nanotubes is enhanced due to the ease of formation of a population of refractory particles. These, in turn, improve the nucleation and stability of the transition metal particles that grow on them. The larger number of transition metal particles translate into a larger number of sites for single-wall carbon nanotube production. The higher catalyst yields provide a means for obtaining higher purity single-wall carbon nanotubes.Type: GrantFiled: November 20, 2002Date of Patent: November 21, 2006Assignee: William Marsh Rice UnivesityInventors: Richard E. Smalley, Robert H. Hauge
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Patent number: 7125502Abstract: The present invention involves fibers of highly aligned single-wall carbon nanotubes and a process for making the same. The present invention provides a method for effectively dispersing single-wall carbon nanotubes. The process for dispersing the single-wall carbon nanotubes comprises mixing single-wall carbon nanotubes with 100% sulfuric acid or a superacid, heating and stirring under an inert, oxygen-free environment. The single-wall carbon nanotube/acid mixture is wet spun into a coagulant to form the single-wall carbon nanotube fibers. The fibers are recovered, washed and dried. The single-wall carbon nanotubes were highly aligned in the fibers, as determined by Raman spectroscopy analysis.Type: GrantFiled: July 2, 2002Date of Patent: October 24, 2006Assignee: William Marsh Rice UniversityInventors: Richard E. Smalley, Rajesh Kumar Saini, Ramesh Sivarajan, Robert H. Hauge, Virginia Angelica Davis, Matteo Pasquali, Lars Martin Ericson
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Patent number: 7090819Abstract: The present invention relates to an all gas-phase process for the purification of single-wall carbon nanotubes and the purified single-wall carbon nanotube material. Known methods of single-wall carbon nanotube production result in a single-wall carbon nanotube product that contains single-wall carbon nanotubes in addition to impurities including residual metal catalyst particles and amounts of small amorphous carbon sheets that surround the catalyst particles and appear on the sides of the single-wall carbon nanotubes and “ropes” of single-wall carbon nanotubes. The purification process removes the extraneous carbon as well as metal-containing residual catalyst particles. The process comprises oxidation of the single-wall carbon nanotube material, reduction and reaction of a halogen-containing gas with the metal-containing species. The oxidation step may be done dry or in the presence of water vapor.Type: GrantFiled: February 8, 2002Date of Patent: August 15, 2006Assignee: William Marsh Rice UniversityInventors: Richard E. Smalley, Robert H. Hauge, Wan-Ting Chiang, Yuemei Yang, Kenneth A. Smith, Wilber Carter Kittrell, Zhenning Gu
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Patent number: 7074310Abstract: The invention relates to a process for sorting and separating a mixture of (n, m) type single-wall carbon nanotubes according to (n, m) type. A mixture of (n, m) type single-wall carbon nanotubes is suspended such that the single-wall carbon nanotubes are individually dispersed. The nanotube suspension can be done in a surfactant-water solution and the surfactant surrounding the nanotubes keeps the nanotube isolated and from aggregating with other nanotubes. The nanotube suspension is acidified to protonate a fraction of the nanotubes. An electric field is applied and the protonated nanotubes migrate in the electric fields at different rates dependent on their (n, m) type. Fractions of nanotubes are collected at different fractionation times. The process of protonation, applying an electric field, and fractionation is repeated at increasingly higher pH to separated the (n, m) nanotube mixture into individual (n, m) nanotube fractions.Type: GrantFiled: March 4, 2003Date of Patent: July 11, 2006Assignee: William Marsh Rice UniversityInventors: Richard E. Smalley, Robert H. Hauge, W. Carter Kittrell, Ramesh Sivarajan, Michael S. Strano, Sergei M. Bachilo, R. Bruce Weisman
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Patent number: 7052668Abstract: A gas-phase method for producing high yields of single-wall carbon nanotubes with high purity and homogeneity is disclosed. The method involves using preformed metal catalyst clusters to initiate and grow single-wall carbon nanotubes. In one embodiment, multi-metallic catalyst precursors are used to facilitate the metal catalyst cluster formation. The catalyst clusters are grown to the desired size before mixing with a carbon-containing feedstock at a temperature and pressure sufficient to initiate and form single-wall carbon nanotubes. The method also involves using small fullerenes and preformed sections of single-wall carbon nanotubes, either derivatized or underivatized, as seed molecules for expediting the growth and increasing the yield of single-wall carbon nanotubes. The multi-metallic catalyst precursors and the seed molecules may be introduced into the reactor by means of a supercritical fluid. In addition the seed molecules may be introduced into the reactor via an aerosol or smoke.Type: GrantFiled: January 29, 2002Date of Patent: May 30, 2006Assignee: William Marsh Rice UniversityInventors: Richard E. Smalley, Robert H. Hauge, Peter Athol Willis, W. Carter Kittrell