Nitrogen-doped carbons

Liu J, Czerw R, Carroll DL (2005a) Large-scale synthesis of highly aligned nitrogen doped carbon nanotubes by injection chemical vapor deposition methods. Journal of Materials Research 20 538-543. [Pg.262]

Misra A, Tyagi PK, Singh MK, Misra DS (2006) FTIR studies of nitrogen doped carbon nanotubes. Diamond and Related Materials 15 385-388. [Pg.263]

V. Meunier, M. Terrones, Electronic transport and mechanical properties of phorous and phosphorus-nitrogen doped carbon nanotubes, ACS Nano, vol. 3, pp. 19131-1921, 2009. [Pg.116]

C. Morant, J. Andrey, P. Prieto, D. Mendiola, ).M. Sanz, E. Elizalde, XPS characterization of nitrogen-doped carbon nanotubes., Physica Status Solidi a-Applications and Materials Science, vol. 203, pp. 1069-1075, 2006. [Pg.116]

Jiang, K., et al., Selective attachment of gold nanoparticles to nitrogen-doped carbon nanotubes. Nano Letters, 2003. 3(3) p. 275-277. [Pg.161]

Another gemstone in the portfolio of rational carbon synthesis is nitrogen-doped carbons. Recently, they became the subject of particular interest to researchers due to their remarkable performance in applications such as C02 sequestration [22], removals of contaminants from gas and liquid phases [23], environmental protection [24], catalysts and catalysts supports [25], or in electrochemistry as supercapacitors [26], cells and batteries to improve stability and the loading capacity of carbon. [Pg.206]

Carbon hybrids and composites as ORR electrocatalysts 14.3.3.1 Nitrogen-doped carbon... [Pg.379]

Nitrogen-doped carbon hybrids with non-precious metals... [Pg.381]

Polymer Composites with Nitrogen-doped Carbon Hybrids... [Pg.383]

A. Wolf, V. Michele, L. Mleczko, J. Assmann, S. Buchholz, Method for Producing Nitrogen-doped Carbon Nanotubes, 2010, U.S. Patent 20100276644. [Pg.424]

Panchakarla, L.S. Govindaraj, A. Rao, C.N.R., Boron- and nitrogen-doped carbon nanotubes and grapheme. Inorg. Chimica Acta 2010,363 4163-4174. [Pg.451]

A. Badzian, T. Badzian, E. Brevel, A. Piotrowski, Nanostructured nitrogen -doped carbon materials for hydrogen storage. Thin Solid Films, 398-399 (2001) 170-174. [Pg.320]

C. N. R. Field Emission Properties of 8oron and Nitrogen Doped Carbon Nanotubes. Chem. Phys. Leit. 2006, 428, 102-108. [Pg.558]

The structure of defects in nanotubes, which occur spontaneously or can be created by doping, has also been extensively studied (44-46). In particular, several teams used EELS to probe the chemical bondings of nitrogen in nitrogen doped carbon nanotubes (47,48). [Pg.57]

Figure 3.9. TEM bright-field image of a SBS copolymer filled with 2.5 wt.% of polystyrene-grafted nitrogen-doped carbon nanotubes after staining with Ru04.

Guseva, M. Babaev, V. Babaina, V. Khvostov, V. Formation of oriented nitrogen doped carbon films. JEPT Lett. 1995, 59(9), 715. [Pg.252]

SC, carbon from sucrose N-SC, nitrogen-doped carbon from sucrose gl, glucosamine ura, uracil pa, picolylamine bmp, hydroxymethylpyridine. The number is a measure for the amount of additive added per mole of sucrose. [Pg.236]

Chapter 6 provides an extensive review of the uses of carbon as a catalyst, with particnlar emphasis being placed on cases in which active sites have been properly identified and activity correlations established. The special case of nitrogen-doped carbons and their catalytic activity in oxidation reactions is discussed in Chapter 7, and Chapter 8 covers the heterogenization of homogeneous catalysts by anchoring transition-metal complexes onto the snrface of suitable carbon materials. [Pg.599]

Doping carbon nanotubes with nitrogen atoms at lower concentrations than 6.5 wt% induce crystalline disorder in the graphene sheets, as well as an excess of electron donors on the nitrogen-rich areas may result in a more reactive structure compared to pure carbon nanotubes. For nitrogen-doped carbon nanotubes (N-MWCNT) two types of C-N bonds... [Pg.202]

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