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Carbon nanofiber paper

Ra, E. J. et al.. Ultramicropore formation in PAN/camphor-based carbon nanofiber paper. Chem. Commun. 2010,46(8), 1320-1322. [Pg.140]

M.N. Islam, M.R. Rahman, M.M. Haque, and M.M. Huque, Carbon nanofiber paper for lightning strike protection of composite materials. Compos. A 41,192-198 (2010). [Pg.323]

Wu, Q., et al. (2010). Study of Fire Retardant Behavior of Carbon Nemotube Membranes and Carbon Nanofiber Paper in Carbon Fiber Reinforced Epoxy Composites. Carbon, 48(6), 1799-1806. [Pg.244]

Wu, Q., Zhu, W., Zhang, C., Liang, Z., Wang, B., 2010. Study of fire retardant behavior of carbon nanotube membranes and carbon nanofiber paper in carbon fiber reinforced epoxy composites. Carbon 48, 1799—1806. [Pg.399]

Zhuge, J., Gou, J., Chen, R.-H., Zhou, A., Yu, Z., 2012c. Fire performance and post-fire mechanical properties of polymer composites coated with hybrid carbon nanofiber paper. Journal of Applied Polymer Science 124, 37—48. [Pg.399]

Ra EJ, Raymundo-Pinero E, Lee YH, Beguin F (2009) High power srrprttcapacitors using polyacrylonitrile-based carbon nanofiber paper. Carbon 47(13) 2984—2992. doi 10.1016/j. carbon.2009.06.051... [Pg.342]

The aim of this review paper is to give an extensive overview of the different promoters used to develop new or improved Co-based F-T catalysts. Special attention is directed towards a more fundamental understanding of the effect of the different promoter elements on the catalytically active Co particles. Due to the extensive open and patent literature, we have mainly included research publications of the last two decades in our review paper.In addition, we will limit ourselves to catalyst formulations composed of oxide supports, excluding the use of other interesting and promising support materials, such as, e.g., carbon nanofibers studied by the group of de Jong. ... [Pg.15]

In this paper, oxidation of carbon nanofibers by nitric acid in combination with a deposition precipitation method was investigated as a modus operandi for the preparation of highly dispersed carbon nanofiber supported, cobalt oxides. A variety of thermal and spectroscopic techniques such as thermogravimetric... [Pg.46]

This review provides an overview of the most preferable production methods of carbon fiber and nanofiber and activated form of them. Because of the extraordinary combination of physical and chemical properties exhibited by carbon nanofibers and activated form of it, which blends two properties that rarely coexist high surface area and high electrical conductivity, which are the result of the unique stacking and crystalline order present within the stracture, there are tremendous opportunities to exploit the potential of this form of carbon in a number of areas, some of which are discussed in this paper. [Pg.190]

Yan, X. et al. 2011. Fabrication of carbon nanofiber-polyanilme composite flexible paper for supercapacitor. Nanoscale, 3,212-216. [Pg.198]

Celebi, S., Nijhnis, T., van der Schaaf, J., et al. (2011). Carbon Nanofiber Growth on Carbon Paper for Proton Exchange Membrane Enel, Carbon, 49, pp. 501—507. [Pg.246]

The introduction of CNT as a conductive material has provided a means to develop new conductive architectures, and a range of buckypaper (CNT paper), buckygel (CNT gels), and carbon nanofiber electrodes have since been reported that demonstrate a signifieant enhancement in electron transfer characteristics for both anodic and cathodic catalysts [58-61], The advantage of CNT as an electrode material is the high electrical conductivity, mechanical stability, and, to some extent, adaptability in respect to the types of materials that can be modified with CNTs. Cathodic oxygen reduction catalysts can be immobilized to buckypaper by simple physical... [Pg.214]

Permeation properties are inportant for the design and implementation of polymer nanocomposites and polymer nanocomposite foam products. The literature is quite limited regarding permeation studies on these materials. In this paper, we focus on permeation properties of polystyrene nanoconposites (two types of nanoclay and carbon nanofiber) and thdr respective foams. Commercial instruments (PERMATRAN-C Model 4/41 and PERMATRAN-W Model 3/33 fi-om Mocon) were used to measure steady state permeability coefficients of CO2 and water vapor at three tenperatures lOTfC, 25TfC, and 401C. From these data permeation rates and permeation activation energy are compared based on nanocomposite morphology. [Pg.1148]

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See also in sourсe #XX -- [ Pg.390 , Pg.391 ]



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