Results 271 to 280 of about 50,508 (312)
Some of the next articles are maybe not open access.
Nanofibers of LiMn2O4 by electrospinning
Journal of Colloid and Interface Science, 2005Through sol-gel processing and electrospinning technique, extrathin fibers of poly(vinyl alcohol) (PVA)/lithium chloride/manganese acetate composite fibers were prepared. After calcination of the above precursor fibers at 600 degrees C, the spinel lithium manganese oxide (LiMn2O4) nanofibers, with a diameter of 100-200 nm, were successfully obtained ...
Na, Yu +4 more
openaire +2 more sources
Recent Patents on Nanotechnology, 2007
Despite the large number of publications in peer review literature in the field of nanofibers, there is still uncertainty as to what aspects of these research results have commercial applications. In an effort to better understand the technological progress made in the field of nanofibers, we surveyed the patents issued in the United States from 1976 ...
Michelle, Ngiam +3 more
openaire +2 more sources
Despite the large number of publications in peer review literature in the field of nanofibers, there is still uncertainty as to what aspects of these research results have commercial applications. In an effort to better understand the technological progress made in the field of nanofibers, we surveyed the patents issued in the United States from 1976 ...
Michelle, Ngiam +3 more
openaire +2 more sources
Supramolecular-based nanofibers
Materials Science and Engineering: C, 2019Supramolecular-based nanofibers, which successfully combine the unique properties of supramolecular interactions with the advantages of nanofibrous structure, are widely used in a variety of biomedical applications such as controlled drug delivery. Compared with traditional polymer nanofibers, supramolecular-based nanofibers can overcome the bottleneck
Yi, Wang +5 more
openaire +2 more sources
Nanocontainers in and onto Nanofibers
Accounts of Chemical Research, 2016Hierarchical structure is a key feature explaining the superior properties of many materials in nature. Fibers usually serve in textiles, for structural reinforcement, or as support for other materials, whereas spherical micro- and nanoobjects can be either highly functional or also used as fillers to reinforce structure materials.
Jiang, S. +3 more
openaire +3 more sources
Photoswitchable Organic Nanofibers
Advanced Materials, 2007A photoswitchable nanomaterial is presented, electrospun organic nanofibers based on 1',3'-dihydro-1',3',3'-trimethyl-6-nitrospiro [2H-1-benzopyran-2,2'-(2H)-indole]. The switching properties of the nanofibers were investigated by studying the evolution of absorbance with different UV exposure times, photoluminescence lifetime, cyclic ...
Di Benedetto F +5 more
openaire +2 more sources
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
openaire +2 more sources
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
openaire +2 more sources
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
openaire +1 more source
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
openaire +1 more source
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
openaire +1 more source
Characterization of nanofibers and nanofiber membranes
2023Morteza Afsari +2 more
openaire +1 more source