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Journal of the American Chemical Society, ISSN 0002-7863, 10/2014, Volume 136, Issue 41, pp. 14385 - 14388
A nanowire-directed templating synthesis of metal–organic framework (MOF) nanofibers has been demonstrated, where ultrathin tellurium nanowires (TeNWs) with... 
DIRECT CARBONIZATION | SUPERSTRUCTURES | STRATEGY | CRYSTALS | OXYGEN REDUCTION REACTION | NANOSTRUCTURES | COORDINATION POLYMERS | ZEOLITIC IMIDAZOLATE FRAMEWORK | CHEMISTRY, MULTIDISCIPLINARY | NANOPOROUS CARBONS | Chemical properties | Structure | Chemical synthesis | Carbon compounds | Analysis
Journal Article
Polymer, ISSN 0032-3861, 05/2008, Volume 49, Issue 10, pp. 2387 - 2425
In electrospinning, polymer nanofibers are formed by the creation and elongation of an electrified fluid jet. The path of the jet is from a fluid surface that... 
Encapsulation | Viscosity | Ribbons | Envelope cone | Electrical bending instability | Silk nanofibers | Carbon nanotubes | Carbon nanofibers | Charge transport | Metal | Protein preservation | Straight segment | Electrodes | Doppler velocimeter | Polymer melts | Fuel cells | Buckling | Hierarchical structures | Branching | Glints | Taylor cone | Meniscus | Coated nanofibers | Exfoliated clay | Conglutination | Metal nanofibers | Instabilities of jets | Interference colors | Polymer fluids | Tapered segment | Thermophotovoltaic device | Non-Newtonian fluids | Structures in interplanetary space | Drop | Solidification | Droplet shape | Polymer solutions | Spider silk | Molten polymers | Jet | Collection | Ceramic | Beads | encapsulation | envelope cone | buckling | conglutination | solidification | ELECTRIC-FIELD | hierarchical structures | spider silk | EMITTERS | branching | non-Newtonian fluids | FIBERS | polymer melts | jet | beads | electrical bending instability | metal nanofibers | BENDING INSTABILITY | ribbons | polymer solutions | electrodes | meniscus | metal | instabilities of jets | exfoliated clay | collection | carbon nanofibers | charge transport | glints | PLANE | CHARGED LIQUID JETS | drop | ceramic | structures in interplanetary space | SHAPES | coated nanofibers | DROPLETS | polymer fluids | straight segment | carbon nanotubes | fuel cells | interference colors | silk nanofibers | molten polymers | POLYMER SCIENCE | thernmphotovoltaic device | droplet shape | viscosity | protein preservation | tapered segment | Proteins | Polymer industry
Journal Article
Soft Matter, ISSN 1744-683X, 01/2019, Volume 15, Issue 34, pp. 6811 - 6818
The presence of low-dimensional functional nanofillers during the formation of morphological phase boundaries in polymeric nanofibers by electrospinning was... 
Separation | Molecular interactions | Images | Electrospinning | Lamellae | Nanomaterials | Mapping | Contact angle | Chains (polymeric) | Helium | Carbon | Weight | Nanoparticles | Hierarchies | Graphene | Epitaxial growth | Nanofibers | Nanotechnology | Data sheets
Journal Article
Small, ISSN 1613-6810, 02/2019, Volume 15, Issue 7, pp. 1970036 - n/a
In article number 1803944, Michael Hirtz, Hendrik Holscher, and co‐workers report on the controlled growth of carbon nanofibers (CNFs) in ∧‐ or λ‐type shape in... 
lambda‐shaped carbon nanofibers | microchannel cantilever spotting (µCS) | branched carbon nanofibers | dip‐pen nanolithography (DPN)
Journal Article
Progress in Polymer Science, ISSN 0079-6700, 10/2016, Volume 61, pp. 67 - 103
Journal Article
Journal of the American Chemical Society, ISSN 0002-7863, 04/2004, Volume 126, Issue 14, pp. 4502 - 4503
Seeding a conventional chemical oxidative polymerization of aniline with even very small amounts of biological, inorganic, or organic nanofibers (usually <1%)... 
POLYMERS | NANOSTRUCTURES | POLYMERIZATION | CHEMISTRY, MULTIDISCIPLINARY | Microscopy, Electron, Scanning | Aniline Compounds - chemistry | Nanotechnology - methods | Nanotubes, Carbon - chemistry | Aniline Compounds - chemical synthesis
Journal Article