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Roger Harquail French, Timothy Gierke, Mark Andrew Harmer, Anand Jagota, Steven Raymond Lustig, Rakesh H Mehta, Paula Beyer Hietpas, Bibiana Onoa: Method for providing nano-structures of uniform length. E I du Pont de Nemours and Company, September 20, 2005: US06946410 (104 worldwide citation)

This invention relates to the field of nanotechnology. Specifically the invention describes a method for cutting a multiplicity of nano-structures to uniform dimensions of length, length and width, or area, or to a specific distribution of lengths or area using various cutting techniques.


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Roger Harquail French, Timothy Gierke, Mark Andrew Harmer, Anand Jagota, Steven Raymond Lustig, Rakesh H Mehta, Paula Beyer Hietpas, Bibiana Onoa: Method for providing nano-structures of uniform length. E I du Pont de Nemours and Company, February 14, 2006: US06998358 (54 worldwide citation)

This invention relates to the field of nanotechnology. Specifically the invention describes a method for cutting a multiplicity of nano-structures to uniform dimensions of length, length and width, or area, or to a specific distribution of lengths or area using various cutting techniques.


3
Anand Jagota, Steven Raymond Lustig, Siqun Wang, Hong Wang: Carbon nanotube binding peptides. November 29, 2011: US08067534 (11 worldwide citation)

Peptides have been generated that have binding affinity to carbon nanostructures and particularly carbon nanotubes. Peptides of or the invention are generally about twelve amino acids in length. Methods for generating carbon nanotube binding peptides are also disclosed.


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Anand Jagota, Jinsoo Kim: Fibrillar microstructure and processes for the production thereof. E I du Pont de Nemours and Company, Irene Plotzker, January 20, 2009: US07479318 (7 worldwide citation)

This invention relates to a fibrillar microstructure and processes for the manufacture thereof. These processes involve micromachining and molding, and can prepare sub-micron dimensioned fibrillar microstructures of any shape from polymeric as well as other materials.


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Anand Jagota, Steven Raymond Lustig, Siqun Wang: Carbon nanotube binding peptides. E I du Pont de Nemours and Company, December 4, 2007: US07304128 (6 worldwide citation)

Peptides have been generated that have binding affinity to carbon nanostructures and particularly carbon nanotubes. Peptides of or the invention are generally about twelve amino acids in length. Methods for generating carbon nanotube binding peptides are also disclosed.


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Anand Jagota, Ming Zheng: Dispersion of carbon nanotubes by nucleic acids. E I du Pont de Nemours and Company, May 20, 2008: US07374649 (6 worldwide citation)

Carbon nanotubes dispersed by a stabilized solution of nucleic acid molecules formed separated nanotube-nucleic acid complexes and were separated according to standard chromatographic methods, including gel electrophoresis, two phase solvent systems and ion exchange chromatography.


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Anand Jagota, Steven Raymond Lustig, Siqun Wang, Hong Wang: Carbon nanotube binding peptides. E I du Pont de Nemours and Company, May 31, 2011: US07951911 (1 worldwide citation)

Peptides have been generated that have binding affinity to carbon nanostructures and particularly carbon nanotubes. Peptides of or the invention are generally about twelve amino acids in length. Methods for generating carbon nanotube binding peptides are also disclosed.


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