Timeline of carbon nanotubes

Inside a carbon nanotube

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1952

Radushkevich and Lukyanovich publish a paper in the Soviet Journal of Physical Chemistry showing hollow graphitic carbon fibers that are 50 nanometers in diameter.^[1]

1955

Hofer, Sterling and McCarney observe a growth of tubular carbon filaments, of 10-200 nm in diameter.^[2]

1958

Hillert and Lange observe a growth of nanoscale tubular carbon filaments from n-heptane decomposition on iron at about 1000°C.^[3]

1960

Roger Bacon grows "graphite wiskers" in an arc-discharge apparatus and use electron microscopy to show that the structure consist of rolled up graphene sheets in concentric cylinders.^[4]
Bollmann and Spreadborough discuss friction properties of carbon due to rolling sheets of graphene in Nature. Electron Microscope picture clearly shows MWCNT.^[5]

1971

M.L. Lieberman reports growth of three different graphitic like filaments; tubular, twisted, and balloon like.^[6] TEM images and diffraction data shows that the hollow tubes are multi-walled carbon nanotubes (MWCNT).

1976

Morinobu Endo reported CVD (Chemical Vapor Deposition) growth of nanometer-scale carbon fibers, and they also reported the discovery of carbon nanofibers, including that some were shaped as hollow tubes.^[7]

1979

Arthur C. Clarke's science fiction novel The Fountains of Paradise popularizes the idea of a space elevator using "a continuous pseudo-one dimensional diamond crystal".^[8]

1982

The continuous or floating-catalyst process was patented by Japanese researcher Morinobu Endo.^[9]^[10]

1985

Fullerenes discovered.^[11]

1987

Howard G. Tennent of Hyperion Catalysis issued a U.S. patent for graphitic, hollow core "fibrils".^[12]

1991

Nanotubes synthesized hollow carbon molecules and determined their crystal structure for the first time in the soot of arc discharge at NEC, by Japanese researcher Sumio Iijima.^[13]
August — Nanotubes discovered in CVD by Al Harrington and Tom Maganas of Maganas Industries, leading to development of a method to synthesize monomolecular thin film nanotube coatings.^[14]

1992

First theoretical predictions of the electronic properties of single-walled carbon nanotubes by groups at Naval Research Laboratory, USA;^[15] Massachusetts Institute of Technology;^[16] and NEC Corporation.^[17]

1993

Groups led by Donald S. Bethune at IBM^[18] and Sumio Iijima at NEC^[19] independently discover single-wall carbon nanotubes and methods to produce them using transition-metal catalysts.

1995

Swiss researchers are the first to demonstrate the electron emission properties of carbon nanotubes.^[20] German inventors Till Keesmann and Hubert Grosse-Wilde predicted this property of carbon nanotubes earlier in the year in their patent application.^[21]

1997

First carbon nanotube single-electron transistors (operating at low temperature) are demonstrated by groups at Delft University^[22] and UC Berkeley.^[23]
The first suggestion of using carbon nanotubes as optical antennas is made in the patent application of inventor Robert Crowley filed in January 1997.^[24]

1998

First carbon nanotube field-effect transistors are demonstrated by groups at Delft University^[25] and IBM.^[26]

2000

First demonstration proving that bending carbon nanotubes changes their resistance^[27]

2001

April — First report on a technique for separating semiconducting and metallic nanotubes.^[28]

2002

January — Multi-walled nanotubes demonstrated to be fastest known oscillators (> 50 GHz).^[29]

2003

September — NEC announced stable fabrication technology of carbon nanotube transistors.^[30]

2004

March — Nature published a photo of an individual 4 cm long single-wall nanotube (SWNT).^[31]

2005

May — A prototype high-definition 10-centimetre flat screen made using nanotubes was exhibited.^[32]
August — University of California finds Y-shaped nanotubes to be ready-made transistors.^[33]
August — General Electric announced the development of an ideal carbon nanotube diode that operates at the "theoretical limit" (the best possible performance). A photovoltaic effect was also observed in the nanotube diode device that could lead to breakthroughs in solar cells, making them more efficient and thus more economically viable.^[34]
August — Nanotube sheet synthesised with dimensions 5 × 100 cm.^[35]

2006

The winning nanotube-enhanced bike ridden by Floyd Landis

March — IBM announces that they have built an electronic circuit around a CNT.^[36]
March — Nanotubes used as a scaffold for damaged nerve regeneration.^[37]
May — Method of placing nanotube accurately is developed by IBM.^[38]
June — Gadget invented by Rice University that can sort nanotubes by size and electrical properties.^[39]
July — Nanotubes were alloyed into the carbon fiber bike that was ridden by Floyd Lantis to win the 2006 Tour de France.^[40] Though later disqualified for performance-enhancing drugs ^[41]^[42]

2009

April — Nanotubes incorporated in virus battery.^[43]
A single-walled carbon nanotube was grown by chemical vapor deposition across a 10-micron gap in a silicon chip, then used in cold atom experiments, creating a blackhole like effect on single atoms.^[44]

2012

January — IBM creates 9 nm carbon nanotube transistor that outperforms silicon.^[45]

2013

January - Research team at Rice University announce developing a new wet-spun nanotech fiber.^[46] The new fiber is made with an industrial scalable process. The fibers reported in Science have about 10 times the tensile strength and electrical and thermal conductivity of the best previously reported wet-spun CNT fibers.
September - Researchers build a carbon nanotube computer.^[47]

References

↑ Monthioux, Marc; Kuznetsov, V (2006). "Who should be given the credit for the discovery of carbon nanotubes?" (PDF). CARBON. 44 (9): 1621–1623. doi:10.1016/j.carbon.2006.03.019. (archived version)
↑ Hofer, L.J.E.; Sterling, E.; McCartney, J.T. (1955). "Structure of the carbon deposited from carbon monoxide on iron, cobalt and nickel". J. Chem. Phys. 59: 1153–1155. doi:10.1021/j150533a010.
↑ Hillert, M.; Lange, N. (1958). "The Structure of Graphite Filaments". Z. Kristallogr. 111: 23–34. doi:10.1524/zkri.1959.111.1-6.24.
↑ Bacon, Roger (1960). "Growth, Structure, and Properties of Graphite Whiskers.". J. Appl. Phys. 31 (2): 283. Bibcode:1960JAP....31..283B. doi:10.1063/1.1735559.
↑ Monthioux, Marc; Spreadborough, J. (1960). "Action of Graphite as Lubricant" (PDF). Nature. 186 (4718): 29–30. Bibcode:1960Natur.186...29B. doi:10.1038/186029a0.
↑ Lieberman, M. L.; Hills, C. R.; Miglionico, C. J. (1971). "Growth of graphite filaments". Carbon. 9: 633–635. doi:10.1016/0008-6223(71)90085-6.
↑ Oberlin, A.; Endo, M.; Koyama, T. (1976). "Filamentous growth of carbon through benzene decomposition". Journal of Crystal Growth. 32 (3): 335–349. Bibcode:1976JCrGr..32..335O. doi:10.1016/0022-0248(76)90115-9.
↑ "1D Diamond Crystal — A continuous pseudo-one dimensional diamond crystal — maybe a nanotube?". Retrieved 2006-10-21.
"Audacious & Outrageous: Space Elevators". NASA. 7 September 2000. Retrieved 2006-10-21.
↑ Koyama, T. and Endo, M.T. (1983) "Method for Manufacturing Carbon Fibers by a Vapor Phase Process," Japanese Patent 1982-58, 966.
↑ M.Endo:Grow carbonfibers in the vapor phase,CHEMTEC,18,no.9,pp.568-576（1988）
↑ Kroto, H. W.; et al. (1985). "C60: Buckminsterfullerene". Nature. 318 (6042): 162–163. Bibcode:1985Natur.318..162K. doi:10.1038/318162a0.
↑ Tennent, Howard G (5 May 1987). "Carbon fibrils, method for producing same and compositions containing same". U.S. Patent 4,663,230.
↑ Iijima, Sumio (7 November 1991). "Helical microtubules of graphitic carbon". Nature. 354 (6348): 56–58. Bibcode:1991Natur.354...56I. doi:10.1038/354056a0.
↑ Maganas, Thomas C; Alan L. Harrington (1 September 1992). "Intermittent film deposition method and system". U.S. Patent 5,143,745.
↑ Mintmire, J.W.; et al. (3 February 1992). "Are Fullerene Tubules Metallic?". Physical Review Letters. 68 (5): 631–634. Bibcode:1992PhRvL..68..631M. doi:10.1103/PhysRevLett.68.631. PMID 10045950.
↑ Saito, R.; et al. (15 July 1992). "Electronic structure of graphene tubules based on C60". Physical Review B. 46 (3): 1804–1811. Bibcode:1992PhRvB..46.1804S. doi:10.1103/PhysRevB.46.1804.
↑ Hamada, N.; et al. (9 March 1992). "New One-Dimensional Conductors: Graphitic Microtubules". Physical Review Letters. 68 (10): 1579–1581. Bibcode:1992PhRvL..68.1579H. doi:10.1103/PhysRevLett.68.1579. PMID 10045167.
↑ Bethune, D. S.; et al. (17 June 1993). "Cobalt-catalysed growth of carbon nanotubes with single-atomic-layer walls". Nature. 363 (6430): 605–607. Bibcode:1993Natur.363..605B. doi:10.1038/363605a0.
↑ Iijima, Sumio; Toshinari Ichihashi (17 June 1993). "Single-shell carbon nanotubes of 1-nm diameter". Nature. 363 (6430): 603–605. Bibcode:1993Natur.363..603I. doi:10.1038/363603a0.
↑ de Heer, W. A.; et al. (17 November 1995). "A Carbon Nanotube Field Emission Electron Source". Science. 270 (5239): 1179–1180. Bibcode:1995Sci...270.1179D. doi:10.1126/science.270.5239.1179.
↑ FIELD-EMISSION CATHODE AND METHOD OF MANUFACTURING IT - Patent EP0801805
↑ Tans, S.; et al. (3 April 1997). "Individual single-wall carbon nanotubes as quantum wires" (PDF). Nature. 386 (6624): 474–477. Bibcode:1997Natur.386..474T. doi:10.1038/386474a0.
↑ Bockrath, M.; et al. (28 March 1997). "Single-Electron Transport in Ropes of Carbon Nanotubes" (PDF). Science. 275 (5308): 1922–1925. doi:10.1126/science.275.5308.1922. PMID 9072967.
↑ "Patent US6700550 - Optical antenna array for harmonic generation, mixing and signal amplification — Google Patents". Google.com. Retrieved 2013-01-30.
↑ Tans, S.; et al. (7 May 1998). "Room-temperature transistor based on a single carbon nanotube" (PDF). Nature. 393 (6680): 49–52. Bibcode:1998Natur.393...49T. doi:10.1038/29954.
↑ Martel, R.; et al. (26 October 1998). "Single- and multi-wall carbon nanotube field-effect transistors". Applied Physics Letters. 73 (17): 2447–2449. Bibcode:1998ApPhL..73.2447M. doi:10.1063/1.122477.
↑ Tombler, Tw; Zhou, C; Alexseyev, L; Kong, J; Dai, H; Liu, L; Jayanthi, Cs; Tang, M; Wu, Sy (Jun 2000). "Reversible electromechanical characteristics of carbon nanotubes under local-probe manipulation". Nature. 405 (6788): 769–72. doi:10.1038/35015519. PMID 10866192.
↑ Collins, Philip; Michael S. Arnold; Phaedon Avouris (27 April 2001). "Engineering Carbon Nanotubes and Nanotube Circuits Using Electrical Breakdown". Science. 292 (5517): 706–709. Bibcode:2001Sci...292..706C. doi:10.1126/science.1058782. PMID 11326094.
↑ "Nanotubes in the Fast Lane". 18 January 2002. Retrieved 2006-10-21.
↑ "Tests Verify Carbon Nanotube Enable Ultra High Performance Transistor" (Press release). NEC. 19 September 2003. Retrieved 2006-10-21.
↑ Zheng, L. X.; et al. (2004). "Ultralong single-wall carbon nanotubes". Nature Materials. 3 (10): 673–676. Bibcode:2004NatMa...3..673Z. doi:10.1038/nmat1216. PMID 15359345.
↑ "Carbon nanotubes used in computer and TV screens". New Scientist. 21 May 2005. p. 28.
↑ Knight, Will (15 August 2005). "Y-shaped nanotubes are ready-made transistors". New Scientist Tech. Retrieved 2006-10-21.
↑ "GE's Research Program Achieves Major Feat in Nanotechnology" (Press release). GE. Retrieved 2006-10-22.
↑ "Carbon-nanotube fabric measures up". Nanotechweb.org. 18 August 2005.
↑ "IBM takes step towards chip nanotechnology". CNN Money. 24 March 2006.
Hutson, Stu (23 March 2006). "Nanotube circuit could boost chip speeds".
"Nano circuit offers big promise". BBC News. 24 March 2006.
↑ "Optic nerve regrown with a nanofibre scaffold". 13 March 2006.
↑ "Carbon nanotubes pinned down at last". 30 May 2006.
↑ "Gadget sorts nanotubes by size". 27 June 2006.
↑ "Carbon nanotubes enter Tour de France". 7 July 2006. Archived from the original on 13 July 2012.
↑ http://www.nytimes.com/2006/07/27/sports/othersports/27cnd-doping.html?pagewanted=all&_r=0
↑ http://velonews.competitor.com/2008/06/news/road/floyd-landis-loses-cas-appeal_79029
↑ "New virus-built battery could power cars, electronic devices". 2 April 2009.
↑ Anne Goodsell; Trygve Ristroph; J. A. Golovchenko; Lene Vestergaard Hau (31 March 2010). "Field Ionization of Cold Atoms near the Wall of a Single Carbon Nanotube". Phys. Rev. Lett. 104: 133002. arXiv:1004.2644. Bibcode:2010PhRvL.104m3002G. doi:10.1103/physrevlett.104.133002.
↑ "IBM creates 9nm carbon nanotube transistor that outperforms silicon". 26 January 2012.
↑ "New nanotech fiber: Robust handling, shocking performance". Rice University News & Media. 10 January 2013.
↑ "Researchers Build a Working Carbon Nanotube Computer". NY Times. 26 September 2013. Retrieved 26 September 2013.

External links

New Scientist — Special Report on Nanotechnology

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