Now showing items 26820-26839 of 57425

    • Method and apparatus for signal reconstruction from saturated measurements 

      Baraniuk, Richard G.; Laska, Jason N.; Boufounos, Petros T.; Davenport, Mark A. (2013-06-04)
      A method for recovering a signal by measuring the signal to produce a plurality of compressive sensing measurements, discarding saturated measurements from the plurality of compressive sensing measurements and reconstructing ...
    • Method and compositions for promotion of wound treatment 

      Kulkarni, Anil D.; Van Buren, Charles T.; Rudolph, Frederick B. (2002-01-29)
      The present invention comprises compositions and preparations for the promotion of wound healing in an animal. Methods for preparing the compositions as well as methods for using the compositions to achieve the promotion ...
    • Method and system for scalable ethernet 

      Rixner, Scott; Cox, Alan L.; Foss, Michael; Shafer, Jeffrey (2014-06-24)
      A computer readable medium comprising computer readable code for data transfer. The computer readable code, when executed, performs a method. The method includes receiving, at a first Axon, an ARP request from a source ...
    • Method and system for transmitting terahertz pulses 

      Mittleman, Daniel M.; Deibel, Jason A.; Escarra, Matthew (2009-05-12)
      Systems for THz transmission using new types of THz waveguides with low loss, negligible group velocity dispersion and structural simplicity are described herein. The THz system incorporates the use of a waveguide with two ...
    • Method and system for wirelessly transmitting data 

      Magistretti, Eugenio; Gurewitz, Omer; Knightly, Edward W. (2015-02-17)
      A method for transmitting data from a sender to a receiver over a channel. The method includes identifying the receiver, obtaining an initiation correlated symbol sequence (CSS) associated with the receiver, transmitting ...
    • Method for assembling PCR fragments of DNA 

      Bennett, George N.; Harrison, Mary Lou (2009-12-08)
      A process for assembling a series of DNA fragments generated by PCR into an ordered circular arrangement for replication and genetic work in cells. The PCR fragments are made with a modified nucleotide in the primers that ...
    • Method for assessing the metabolic basis of physical fitness 

      Weyand, Peter G.; Bundle, Matthew W. (2008-05-13)
      The present invention includes a method for assessing the fitness of an individual. In one embodiment, the method comprises providing a physical fitness value of an individual by measuring a first trial of an activity ...
    • Method for coupling terahertz pulses into a coaxial waveguide 

      Mittleman, Daniel M.; Wang, Kanglin (2015-11-03)
      A system for coupling teraherz (THz) radiation to a coaxial waveguide comprises an antenna that generates THz radiation having a mode that matches the mode of the waveguide. The antenna may comprise a pair of concentric ...
    • Method for creating a functional interface between a nanoparticle- nanotube or nanowire- and a biological molecule or system 

      Barron, Andrew R.; Flood, Dennis J.; Whitsitt, Elizabeth Anne; Anderson, Robin E.; Scott, Graham B. I. (2010-04-06)
      A field effect transistor and a method for making the same. In one embodiment, the field effect transistor comprises a source; a drain; a gate; at least one carbon nanotube on the gate; and a dielectric layer that coats ...
    • Method for cutting fullerene nanotubes 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2009-01-27)
      This invention relates generally to cutting fullerene nanotubes. In one embodiment, the present invention provides for preparation of homogeneous populations of short fullerene nanotubes by cutting and annealing (reclosing) ...
    • Method for cutting nanotubes 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2006-03-07)
      This invention relates generally to cutting single-wall carbon nanotubes (SWNT). In one embodiment, the present invention provides for preparation of homogeneous populations of short carbon nanotube molecules by cutting ...
    • Method for cutting single-wall carbon nanotubes 

      Colbert, Daniel T.; Dai, Hongjie; Hafner, Jason H.; Rinzler, Andrew G.; Smalley, Richard E.; Liu, Jie; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2006-05-30)
      This invention relates generally to cutting single-wall carbon nanotubes (SWNT). In one embodiment, the present invention provides for preparations of homogemeous populations of short carbon nanotube molecules by cutting ...
    • Method for cutting single-wall carbon nanotubes through fluorination 

      Margrave, John L.; Gu, Zhenning; Hauge, Robert H.; Smalley, Richard E. (2006-04-18)
      A method for cutting single-wall carbon nanotubes involves partially fluorinating single-wall carbon nanotubes and pyrolyzing the partially fluorinated nanotubes in an inert atmosphere or vacuum up to about 1000° C. The ...
    • Method for fabrication of a semiconductor element and structure thereof 

      Or-Bach, Zvi; Tour, James M.; Sinitskiy, Alexander; Yao, Jun; Beitler, Elvira (2011-07-05)
      Re-programmable antifuses and structures utilizing re-programmable antifuses are presented. Such structures include a configurable interconnect circuit having at least one re-programmable antifuse, wherein the at least one ...
    • Method for fabrication of a semiconductor element and structure thereof 

      Or-Bach, Zvi; Tour, James M.; Yao, Jun; Cronquist, Brian (2013-03-05)
      Re-programmable antifuses and structures utilizing re-programmable antifuses are presented herein. Such structures include a configurable interconnect circuit having at least one re-programmable antifuse, wherein the at ...
    • Method for forming a patterned array of fullerene nanotubes 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2009-03-31)
      This invention relates generally to forming a patterned array of fullerene nanotubes. In one embodiment, a nanoscale array of microwells is provided on a substrate; a metal catalyst is deposited in each microwells; and a ...
    • Method for forming a patterned array of single-wall carbon nanotubes 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2006-09-19)
      This invention relates generally to forming a patterned array of single-wall carbon nanotubes (SWNT). In one embodiment, a nanoscale array of microwells is provided on a substrate; a metal catalyst is deposited in each ...
    • Method for forming an array of single -wall carbon nanotubes and compositions thereof 

      Colbert, Daniel T.; Dai, Hongjie; Hafner, Jason H.; Rinzler, Andrew G.; Smalley, Richard E. (2006-06-27)
      This invention relates generally to forming an array of single-wall carbon nanotubes (SWNT) and compositions thereof. In one embodiment, a homogeneous population of SWNT molecules is used to produce a substantially ...
    • Method for forming an array of single-wall carbon nanotubes in an electric field and compositions thereof 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2006-08-08)
      This invention relates generally to a forming an array of single-wall carbon nanotubes (SWNT) in an electric field and compositions thereof. In one embodiment, a purified bucky paper of single-wall carbon nanotubes is used ...
    • Method for forming composites of sub-arrays of fullerene nanotubes 

      Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Kenneth A.; Guo, Ting; Nikolaev, Pavel; Thess, Andreas (2011-05-10)
      The formation of arrays of fullerene nanotubes is described. A microscopic molecular array of fullerene nanotubes is formed by assembling subarrays of up to 106 fullerene nanotubes into a composite array.