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2013
One of the promising new techniques in the production of biomaterials is the electrospinning process, whereby fibers of uniform thickness down to the nanoscale can be produced from solutions of polymeric material in a high electric field. At the same time there has been increasing interest in the manufacture of biodegradable nanomaterials from nonfood ...
Jeffrey E, Plowman +2 more
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One of the promising new techniques in the production of biomaterials is the electrospinning process, whereby fibers of uniform thickness down to the nanoscale can be produced from solutions of polymeric material in a high electric field. At the same time there has been increasing interest in the manufacture of biodegradable nanomaterials from nonfood ...
Jeffrey E, Plowman +2 more
openaire +2 more sources
Arranging junctions for nanofibers
Nanoscale, 2010Epoxy in electrospun nanofibers acting as adhesive generates junctions between nanofibers and thus forms stable three-dimensional networks.
Mengmeng, Li +3 more
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Cellulose, 2018
Cellulose nanofiber/chitin nanofiber (CCN) suspensions can be converted into uniform composite hydrogels under acidic condition, because the chitin nanofiber and cellulose nanofiber have C6 carboxylate groups on their surfaces, which form hydrogen bonds.
Kezheng Gao +7 more
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Cellulose nanofiber/chitin nanofiber (CCN) suspensions can be converted into uniform composite hydrogels under acidic condition, because the chitin nanofiber and cellulose nanofiber have C6 carboxylate groups on their surfaces, which form hydrogen bonds.
Kezheng Gao +7 more
openaire +1 more source
Polymer Bulletin, 2017
Carbon nanofibers have a great potential for supercapacitor, battery, photocatalytic applications, and supporting material for light weight composite structures. In addition to use as a carbon fiber precursor, oxidized PAN nanofiber can also be used to produce inherently flame-resistant materials.
Ezgi Ismar, A. Sezai Sarac
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Carbon nanofibers have a great potential for supercapacitor, battery, photocatalytic applications, and supporting material for light weight composite structures. In addition to use as a carbon fiber precursor, oxidized PAN nanofiber can also be used to produce inherently flame-resistant materials.
Ezgi Ismar, A. Sezai Sarac
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Characterization of nanofibers and nanofiber membranes
2023Morteza Afsari +2 more
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Organic Crystalline Nanofibers
2008Organic crystalline nanofibers are a new class of nanoscaled organic materials that bear high potential as model systems for optics and photonics at the diffraction limit. In addition, due to the possibility to tailor to a large extent morphology as well as optoelectronic properties, organic nanofibers are promising elements for future integrated ...
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Compound Core–Shell Polymer Nanofibers by Co-Electrospinning
Advanced Materials, 2003Zaicheng Sun +2 more
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Carbon Nanotubes on Carbon Nanofibers: A Novel Structure Based on Electrospun Polymer Nanofibers
Advanced Materials, 2004H Hou, D H Reneker
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