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Carbon nanofiber (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Carbon nanofiber" in English language version.

refsWebsite
Global rank English rank
20doi.org
2nd place
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8harvard.edu
18th place
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5nih.gov
4th place
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4semanticscholar.org
11th place
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2patents.google.com
1,182nd place
725th place
1openaccessrepository.it
low place
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1researchgate.net
120th place
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1handle.net
102nd place
76th place
1worldcat.org
5th place
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1cdc.gov
218th place
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1pyrografproducts.com
low place
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1understandingnano.com
low place
low place
1jstor.org
26th place
20th place
1google.ch
3,220th place
low place
1web.archive.org
1st place
1st place
1msu.edu
1,844th place
1,231st place

cdc.gov

doi.org

  • Guadagno, Liberata; Raimondo, Marialuigia; Vittoria, Vittoria; Vertuccio, Luigi; Lafdi, Khalid; De Vivo, Biagio; Lamberti, Patrizia; Spinelli, Giovanni; Tucci, Vincenzo (2013). "The role of carbon nanofiber defects on the electrical and mechanical properties of CNF-based resins" (PDF). Nanotechnology. 24 (30): 305704. Bibcode:2013Nanot..24D5704G. doi:10.1088/0957-4484/24/30/305704. PMID 23843601.
  • Tibbetts, G; Lake, M; Strong, K; Rice, B (2007). "A review of the fabrication and properties of vapor-grown carbon nanofiber/polymer composites". Composites Science and Technology. 67 (7–8): 1709–18. doi:10.1016/j.compscitech.2006.06.015.
  • Hammel, E; Tang, X; Trampert, M; Schmitt, T; Mauthner, K; Eder, A; Pötschke, P (2004). "Carbon nanofibers for composite applications". Carbon. 42 (5–6): 1153–8. doi:10.1016/j.carbon.2003.12.043.
  • Tibbetts, Gary G (1985). "Lengths of carbon fibers grown from iron catalyst particles in natural gas". Journal of Crystal Growth. 73 (3): 431–8. Bibcode:1985JCrGr..73..431T. doi:10.1016/0022-0248(85)90005-3.
  • Baker, R (1972). "Nucleation and growth of carbon deposits from the nickel catalyzed decomposition of acetylene". Journal of Catalysis. 26: 51–62. doi:10.1016/0021-9517(72)90032-2.
  • De Jong, Krijn P; Geus, John W (2007). "Carbon Nanofibers: Catalytic Synthesis and Applications". Catalysis Reviews. 42 (4): 481–510. doi:10.1081/CR-100101954. hdl:1874/2326. S2CID 97230458.
  • Dadvar, Saeed; Tavanai, Hossein; Morshed, Mohammad (2012). "Effect of embedding MgO and Al2O3 nanoparticles in the precursor on the pore characteristics of PAN based activated carbon nanofibers". Journal of Analytical and Applied Pyrolysis. 98: 98–105. doi:10.1016/j.jaap.2012.08.001.
  • Lin, Xiaoyang; Zhao, Wei; Zhou, Wenbin; Liu, Peng; Luo, Shu; Wei, Haoming; Yang, Guangzhi; Yang, Junhe; Cui, Jie (2017-02-14). "Epitaxial Growth of Aligned and Continuous Carbon Nanofibers from Carbon Nanotubes". ACS Nano. 11 (2): 1257–1263. doi:10.1021/acsnano.6b04855. ISSN 1936-0851. PMID 28165709.
  • Occupational Exposure to Carbon Nanotubes and Nanofibers. Current Intelligence Bulletin 65. National Institute for Occupational Safety and Health. 2013. doi:10.26616/NIOSHPUB2013145.[page needed]
  • Dahm, Matthew M; Schubauer-Berigan, Mary K; Evans, Douglas E; Birch, M Eileen; Fernback, Joseph E; Deddens, James A (2015). "Carbon Nanotube and Nanofiber Exposure Assessments: An Analysis of 14 Site Visits". Annals of Occupational Hygiene. 59 (6): 705–23. doi:10.1093/annhyg/mev020. PMC 4507369. PMID 25851309.
  • Ji, Liwen; Zhang, Xiangwu (2009). "Fabrication of porous carbon nanofibers and their application as anode materials for rechargeable lithium-ion batteries". Nanotechnology. 20 (15): 155705. Bibcode:2009Nanot..20o5705J. doi:10.1088/0957-4484/20/15/155705. PMID 19420557. S2CID 29314434.
  • Iwasaki, Tomohiro; Makino, Yuri; Fukukawa, Makoto; Nakamura, Hideya; Watano, Satoru (2016). "Low-temperature growth of nitrogen-doped carbon nanofibers by acetonitrile catalytic CVD using Ni-based catalysts". Applied Nanoscience. 6 (8): 1211–8. Bibcode:2016ApNan...6.1211I. doi:10.1007/s13204-016-0535-x.
  • Fowler, R. H; Nordheim, L (1928). "Electron Emission in Intense Electric Fields". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 119 (781): 173–81. Bibcode:1928RSPSA.119..173F. doi:10.1098/rspa.1928.0091. JSTOR 95023.
  • Salapaka, Srinivasa; Salapaka, Murti (2008). "Scanning Probe Microscopy". IEEE Control Systems Magazine. 28 (2): 65–83. doi:10.1109/MCS.2007.914688. S2CID 20484280.
  • McKnight, Timothy E; Melechko, Anatoli V; Hensley, Dale K; Mann, David G J; Griffin, Guy D; Simpson, Michael L (2004). "Tracking Gene Expression after DNA Delivery Using Spatially Indexed Nanofiber Arrays". Nano Letters. 4 (7): 1213–9. Bibcode:2004NanoL...4.1213M. doi:10.1021/nl049504b.
  • Rassaei, Liza; Sillanpää, Mika; Bonné, Michael J; Marken, Frank (2007). "Carbon Nanofiber–Polystyrene Composite Electrodes for Electroanalytical Processes". Electroanalysis. 19 (14): 1461–6. doi:10.1002/elan.200703887.
  • Oberlin, A; Endo, M; Koyama, T (1976). "Filamentous growth of carbon through benzene decomposition". Journal of Crystal Growth. 32 (3): 335–49. Bibcode:1976JCrGr..32..335O. doi:10.1016/0022-0248(76)90115-9.
  • Koyama, Tsuneo; Endo, Morinobu (1973). "Structure and Growth Process of Vapor-Grown Carbon Fibers". Oyo Buturi. 42 (7): 690–6. doi:10.11470/oubutsu1932.42.690.
  • Benissad, Farida; Gadelle, Patrice; Coulon, Michel; Bonnetain, Lucien (1988). "Formation de fibres de carbone a partir du methane: I Croissance catalytique et epaississement pyrolytique" [Formation of carbon fibers from methane: I Catalytic growth and pyrolytic thickening]. Carbon (in French). 26 (1): 61–9. doi:10.1016/0008-6223(88)90010-3.
  • Iijima, Sumio (1991). "Helical microtubules of graphitic carbon". Nature. 354 (6348): 56–8. Bibcode:1991Natur.354...56I. doi:10.1038/354056a0. S2CID 4302490.

google.ch

handle.net

hdl.handle.net

harvard.edu

ui.adsabs.harvard.edu

  • Guadagno, Liberata; Raimondo, Marialuigia; Vittoria, Vittoria; Vertuccio, Luigi; Lafdi, Khalid; De Vivo, Biagio; Lamberti, Patrizia; Spinelli, Giovanni; Tucci, Vincenzo (2013). "The role of carbon nanofiber defects on the electrical and mechanical properties of CNF-based resins" (PDF). Nanotechnology. 24 (30): 305704. Bibcode:2013Nanot..24D5704G. doi:10.1088/0957-4484/24/30/305704. PMID 23843601.
  • Tibbetts, Gary G (1985). "Lengths of carbon fibers grown from iron catalyst particles in natural gas". Journal of Crystal Growth. 73 (3): 431–8. Bibcode:1985JCrGr..73..431T. doi:10.1016/0022-0248(85)90005-3.
  • Ji, Liwen; Zhang, Xiangwu (2009). "Fabrication of porous carbon nanofibers and their application as anode materials for rechargeable lithium-ion batteries". Nanotechnology. 20 (15): 155705. Bibcode:2009Nanot..20o5705J. doi:10.1088/0957-4484/20/15/155705. PMID 19420557. S2CID 29314434.
  • Iwasaki, Tomohiro; Makino, Yuri; Fukukawa, Makoto; Nakamura, Hideya; Watano, Satoru (2016). "Low-temperature growth of nitrogen-doped carbon nanofibers by acetonitrile catalytic CVD using Ni-based catalysts". Applied Nanoscience. 6 (8): 1211–8. Bibcode:2016ApNan...6.1211I. doi:10.1007/s13204-016-0535-x.
  • Fowler, R. H; Nordheim, L (1928). "Electron Emission in Intense Electric Fields". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 119 (781): 173–81. Bibcode:1928RSPSA.119..173F. doi:10.1098/rspa.1928.0091. JSTOR 95023.
  • McKnight, Timothy E; Melechko, Anatoli V; Hensley, Dale K; Mann, David G J; Griffin, Guy D; Simpson, Michael L (2004). "Tracking Gene Expression after DNA Delivery Using Spatially Indexed Nanofiber Arrays". Nano Letters. 4 (7): 1213–9. Bibcode:2004NanoL...4.1213M. doi:10.1021/nl049504b.
  • Oberlin, A; Endo, M; Koyama, T (1976). "Filamentous growth of carbon through benzene decomposition". Journal of Crystal Growth. 32 (3): 335–49. Bibcode:1976JCrGr..32..335O. doi:10.1016/0022-0248(76)90115-9.
  • Iijima, Sumio (1991). "Helical microtubules of graphitic carbon". Nature. 354 (6348): 56–8. Bibcode:1991Natur.354...56I. doi:10.1038/354056a0. S2CID 4302490.

jstor.org

msu.edu

nanotube.msu.edu

nih.gov

pubmed.ncbi.nlm.nih.gov

  • Guadagno, Liberata; Raimondo, Marialuigia; Vittoria, Vittoria; Vertuccio, Luigi; Lafdi, Khalid; De Vivo, Biagio; Lamberti, Patrizia; Spinelli, Giovanni; Tucci, Vincenzo (2013). "The role of carbon nanofiber defects on the electrical and mechanical properties of CNF-based resins" (PDF). Nanotechnology. 24 (30): 305704. Bibcode:2013Nanot..24D5704G. doi:10.1088/0957-4484/24/30/305704. PMID 23843601.
  • Lin, Xiaoyang; Zhao, Wei; Zhou, Wenbin; Liu, Peng; Luo, Shu; Wei, Haoming; Yang, Guangzhi; Yang, Junhe; Cui, Jie (2017-02-14). "Epitaxial Growth of Aligned and Continuous Carbon Nanofibers from Carbon Nanotubes". ACS Nano. 11 (2): 1257–1263. doi:10.1021/acsnano.6b04855. ISSN 1936-0851. PMID 28165709.
  • Dahm, Matthew M; Schubauer-Berigan, Mary K; Evans, Douglas E; Birch, M Eileen; Fernback, Joseph E; Deddens, James A (2015). "Carbon Nanotube and Nanofiber Exposure Assessments: An Analysis of 14 Site Visits". Annals of Occupational Hygiene. 59 (6): 705–23. doi:10.1093/annhyg/mev020. PMC 4507369. PMID 25851309.
  • Ji, Liwen; Zhang, Xiangwu (2009). "Fabrication of porous carbon nanofibers and their application as anode materials for rechargeable lithium-ion batteries". Nanotechnology. 20 (15): 155705. Bibcode:2009Nanot..20o5705J. doi:10.1088/0957-4484/20/15/155705. PMID 19420557. S2CID 29314434.

ncbi.nlm.nih.gov

openaccessrepository.it

  • Guadagno, Liberata; Raimondo, Marialuigia; Vittoria, Vittoria; Vertuccio, Luigi; Lafdi, Khalid; De Vivo, Biagio; Lamberti, Patrizia; Spinelli, Giovanni; Tucci, Vincenzo (2013). "The role of carbon nanofiber defects on the electrical and mechanical properties of CNF-based resins" (PDF). Nanotechnology. 24 (30): 305704. Bibcode:2013Nanot..24D5704G. doi:10.1088/0957-4484/24/30/305704. PMID 23843601.

patents.google.com

pyrografproducts.com

researchgate.net

semanticscholar.org

api.semanticscholar.org

understandingnano.com

web.archive.org

worldcat.org

  • Lin, Xiaoyang; Zhao, Wei; Zhou, Wenbin; Liu, Peng; Luo, Shu; Wei, Haoming; Yang, Guangzhi; Yang, Junhe; Cui, Jie (2017-02-14). "Epitaxial Growth of Aligned and Continuous Carbon Nanofibers from Carbon Nanotubes". ACS Nano. 11 (2): 1257–1263. doi:10.1021/acsnano.6b04855. ISSN 1936-0851. PMID 28165709.