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| An Investigation on Phase Behaviour and Orientation Factor of Electrospun Nanofibers http://etd.utk.edu/2005/FengKai.pdf Master of Science thesis presenting an investigation on phase behaviour of nanofibers electrospun from polymer blends, and orientation factors within nanofibers electrospun from both, a single polymer solution and blended polymers. Author: Kai Feng. [PDF] |
PR: 3
| Carbon Nanotube Fibers http://www.cnrs.fr/cw/en/pres/compress/nanotube.htm Short article about the development of a process for the production of macroscopic carbon nanotube fibers and strips for possible applications in medical, electronic and textile products. From the Centre de Recherche Paul Pascal. |
PR: 3
| Characterization of Uncoated and Sputter Coated Nanofibers http://www.ohiolink.edu/etd/send-pdf.cgi?acc_num=akron1134696025 Master of Science thesis, primarily focused on the characterization of uncoated and sputter coated nanofibers, and include an extension of a proposed method in literature for calculating the surface energy of nanoparticles and preparation of optimal surface energy thin films of boron nitride (BN) on nanofibers. Author: Praveen Meduri. [PDF] |
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| Cost Effective Nanofiber Formation: Melt Electrospinning http://www.ntcresearch.org/pdf-rpts/AnRp05/F05-MD01-A5.pdf National Textile Center project outline for the development of a third generation apparatus for the electrospinning of polymer nanofibers. [PDF] |
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| Elastomeric Nanofibers of Styrene-Butadiene-Stryrene Triblock Copolymer http://msewww.engin.umich.edu:81/people/milty/research/electrospinning/literature/1999_Reneker_Fong_Elastomeric%20nanofibers%20of%20SBS%20triblock%20copolymer.pdf Technical paper about the examination of the physical and mechanical properties of elastomeric electrospun nanofibers from commercial styrene-butadiene-styrene (SBS) triblock copolymer. Authors: Hao Fong and Darrell H. Reneker. [PDF] |
PR: 4
| Electrospinning Nanofibers of Polyaniline and Blends http://www1.uprh.edu/npinto/papers/1ncur2001.PDF Technical paper about electrospinning of nanofibers from pure doped polyaniline dissolved in concentrated sulfuric acid, and doped polyaniline blended with polystyrene (PS) and polyethylene oxide (PEO) dissolved in chloroform. Author: Manuel J. Diaz de Leon. [PDF] |
PR: 3
| Electrospinning of Nanofibers from Polymer Solutions http://fluid.ippt.gov.pl/ictam04/text/sessions/docs/FM4/10932/FM4_10932.pdf Short technical article about the mechanism and electrohydrodynamic modeling, experimental realization and a number of applications of electrospun nanofibers from polymer solutions. Authors: A.L. Yarin and E. Zussman. [PDF] |
PR: 3
| Enhancing the Properties of Nanoscale Electrospun Polymer Fibers http://www-unix.oit.umass.edu/~nano/NewFiles/Over49_NIRT_Delaware.pdf Technical paper about the development of a new method to induce a nanoporous texture on polymer fibers, and a unique processing protocol to enhance the properties of nanoscale electrospun polymer fibers. Authors: John Rabolt and others. [PDF] |
PR: 3
| Fabrication and Properties of Rapid Thermally Processed Carbon Nanofibers http://www.ee.upenn.edu/~sunfest/pastProjects/Papers01/SantiagoSerrano.pdf Undergraduate paper about a method for rapid manufacturing of electrospun polyacrylonitrile carbon nanofibers, and a study of the resistivity of a single carbon fiber. Author: Santiago Serrano. [PDF] |
PR: 3
| Fabrication and Properties of Rapid Thermally Processed Carbon Nanofibers http://www.seas.upenn.edu/ese/sunfest/pastProjects/Papers01/SantiagoSerrano.pdf Technical paper about physical experiments in controlling the properties for the fabrication of nanofibers, necessary for the development of nanoscale electronics. Author: Santiago Serrano. [PDF] |
PR: 3
| Hydrogen Storage in Graphite Nanofibers http://www.eere.energy.gov/hydrogenandfuelcells/pdfs/25315cc.pdf Report on the discovery that graphite nanofibers are capable of absorbing and storing up to 40 wgt % of hydrogen, through the establishment of a strong interaction between hydrogen and the delocalized p-electrons present in the graphite layer. Author: C. Park and others. [PDF] |
PR: 5
| Manufacturing at the Nanoscale http://www.nano.gov/NNI_Manufacturing_at_the_Nanoscale.pdf Report of the National Nanotechnology Initiative Workshops presenting findings and recommendations for the development of a strategic plan for the US nanotechnology industry. [PDF] |
PR: 3
| Meso- and Nano-scaled Polymer Fibers and Tubes http://archiv.ub.uni-marburg.de/diss/z2004/0025/pdf/djz.pdf Dissertation about the development, production, characteristics and industrial applications of nanofibers and structures. Author: Jun Zeng. [PDF] |
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| Molecular Spinnerets for Polymeric Fibers http://www.ntcresearch.org/pdf-rpts/AnRp01/M98-G08-A1.pdf Technical paper about the investigation into, and the design and synthesis of molecular spinning machines that can be shaped in the form of membranes, control fiber structure and produce nanofibers. Authors: Karl I. Jacob and Malcolm Polk. [PDF] |
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| Nano-Textiles Are Engineering a Safer World http://www.human.cornell.edu/che/Outreach/upload/Nano-Textiles%20Are%20Engineering%20a%20Safer%20World.pdf Article about Cornell University's scientists' activities towards developing nanofibers to act as biological sensors and shields against viruses, bacteria and hazardous particles. Author: Clare Ulrich. [PDF] |
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| Nanofiber Technology: Bridging the Gap Between the Nano and Macro World http://www.drexel.edu/coe/research/conferences/NATOASI2003/manuscripts/1.1%20Ko.pdf Technical paper discussing the potential impact of nanofibers from electric polymers and their composites on the development of devices and structures for novel functions, drug delivery systems and scaffolds for tissue engineering, wires, capacitors, conversion and storage of energy and information, energy transport systems, and composites for aerospace structures. Author: Frank K. Ko. [PDF] |
PR: 1
| Peptide-Amphiphile Nanofibers http://www.ruf.rice.edu/~jdh/pdf/2002a_PNAS.pdf Study of twelve derivatives of peptide-amphiphile molecules designed to self-assemble into nanofiber, and an investigation into the scope of amino acid selection and alkyl tail modification of said molecules which yield nanofibers varying in morphology, surface chemistry and potential bioactivity. Authors: Jeffrey D. Hartgerink and others. [PDF] |
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| Polyphosphazene Nanofibers for Biomedical Applications: Preliminary Studies http://drexel.edu/coe/research/conferences/NATOASI2003/manuscripts/4.1.5.laurencin2.pdf Technical paper about research demonstrating that nanofiber of polyphosphazenes for biomedical applications can be manufactured by electrospinning, producing submicron sized fibers from an electrostatically driven jet of polymer solution. Authors: C.T. Laurencin and L.S. Nair. [PDF] |
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| Preparation and Characterization of a Nanoscale Poly(vinyl alcohol) Fiber Aggregate Produced by an Electrospinning Method http://msewww.engin.umich.edu:81/people/milty/research/electrospinning/literature/2002_Kim_Lee_Preparation%20and%20characterization%20of%20a%20nanoscale%20PVA%20fiber%20aggregate%20produced%20by%20an%20electrospinning%20method.pdf Technical paper characterising the anti-water solubility and mechanical properties of electrospun crosslinked polyvinyl-alcohol (PVA) nanofibers in comparison with non-crosslinked fibers. Authors: Bin Ding and others. [PDF] |
PR: 5
| Preparation of Graphite Carbon Nanofibers with the Use of Water-Soluble Supports http://vinse.vanderbilt.edu/GCNF-JNN.pdf Scientific article about the preparation of graphitic carbon nanofibers with a nickel rich growth catalyst, supported on three different water-soluble supporting substrates. Authors: Eve S. Steinwalt and C.M. Lukehart. [PDF] |
