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Carbon Nanofibers: Synthesis and Applications
Journal of Nanoscience and Nanotechnology, 2014As a novel functional material, carbon nanofiber has many interesting applications in the chemical industry, material science, and energy storage fields. Chemical vapor dispersion and carbonization polymer nanofibers are the two important routes to synthesize carbon nanofibers.
Hongyan, Song, Wenzhong, Shen
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Carbon nanofibers and carbon nanotubes in regenerative medicine
Advanced Drug Delivery Reviews, 2009Carbon nanotubes and carbon nanofibers have long been investigated for applications in composite structural materials, semiconductor devices, and sensors. With the recent well-documented ability to chemically modify nanofibrous carbon materials to improve their solubility and biocompatibility properties: a whole new class of bioactive carbon ...
Tran, Phong +2 more
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A thin carbon nanofiber/branched carbon nanofiber nanocomposite for high-performance supercapacitors
New Journal of Chemistry, 2022A symmetric device based on TCNF/CNF delivers a specific energy of 6.8 W h kg−1 at the specific power of 18.45 kW kg−1.
Yongsheng Zhou +9 more
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Formation of carbon nanofibers
The Journal of Physical Chemistry, 1992Recently 3-1 50-nm-diameter carbon fibers have been discovered which appear to grow spontaneously by deposition from carbon vapor. It is proposed that these structures may be giant fullerenes which have grown by direct insertion into the graphitic network of smaller carbon species (atoms, ‘linear” chains, monocyclic rings, or even smaller fullerenes ...
M. Endo, H. W. Kroto
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Characteristics of Carbon Nanofibers
2020Carbon nanofibers (CNFs) are fibrous nanostructures of sp2-hybridized carbon having partial structural similarity with carbon nanotubes (CNTs). This chapter reviews the structure, synthesis techniques, properties and applications of CNFs. CNFs can be produced either by vapor phase growth using chemical vapor deposition or by carbonization of pre ...
Raghunandan Sharma, Kamal K. Kar
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Consolidation of carbon nanofibers with pyrolytic carbon
Solid Fuel Chemistry, 2007A strategy of industrial-scale manufacture for a wide range of carbon materials based on carbon nanofibers is proposed. It was shown that porous materials with a high sorption capacity can be obtained with the use of carbon nanofibers by means of conventional manufacturing operations.
B. V. Peshnev, A. A. Dmitriev
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2016
The properties and abundance of carbon in its different forms resulted in the wide use of carbon-based materials by diverse sectors of industry, science, and technology. Consequently, emerging and anticipated technological challenges have increased the pressure on researchers to develop advanced carbon-based materials. In addition, there will always be
Samuel Chigome, Sunil A. Patil
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The properties and abundance of carbon in its different forms resulted in the wide use of carbon-based materials by diverse sectors of industry, science, and technology. Consequently, emerging and anticipated technological challenges have increased the pressure on researchers to develop advanced carbon-based materials. In addition, there will always be
Samuel Chigome, Sunil A. Patil
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Rheology of carbon nanofiber-reinforced polypropylene
Rheologica Acta, 2008The rheological properties of two different nanocomposite systems consisting in the dispersion of carbon nanofibers (CNFs) in polypropylene are investigated. The nanoreinforced systems were identically prepared with two CNFs that differ only in the length of the fibers being otherwise identical to analyze the effect of fiber aspect ratio.
Simona Ceccia +3 more
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Superelastic Hard Carbon Nanofiber Aerogels
Advanced Materials, 2019AbstractSuperelastic carbon aerogels have been widely explored by graphitic carbons and soft carbons. These soft aerogels usually have delicate microstructures with good fatigue resistance but ultralow strength. Hard carbon aerogels show great advantages in mechanical strength and structural stability due to the sp3‐C‐induced turbostratic “house‐of ...
Zhi‐Long Yu +9 more
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Electrical Conductance in a Single Carbon Nanofiber
Journal of Nanoscience and Nanotechnology, 2005A microwave-plasma enhanced chemical-vapor-deposition (MPECVD) method was used to grow a solo multi-wall carbon nanofiber, which plays as a bridge across nickel electrodes that were separated by the photolithographic process. The length and diameter of carbon nanofiber are 3 microm and 100 nm, respectively. The single wire across the electrodes reveals
Lun Wei, Chang, Juh Tzeng, Lue
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