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Carbon NANOTUBES de carbones
La prochaine vague technologique
Table des matières
• Properties of CNTs• Applications futures possibles
• How do we produce them?
• Questions???
• Références
• What are Carbon Nanotubes?
• Problèmes
Qu’est-ce qu’un nanotube de carbone?
What is it?
• Iijima discovered them in 1991• Feuille de graphite roullée en un
cylindre• Liens sp2• SWNT vs MWNT• Forces de Van der Vaals tiennent
les épaisseurs ensemble.• End(s) in the shape of buckyballs
Comment les reconnaître?
• Les CNTs sont identifiés par un couple d’entier (n,m)
Quelques propriétés
Caractéristiques des CNTs
• SWNT diameter: 0.4 to 3 nm – 100 000 times smaller than a hair
• MWNT diameter: ~1.4 to 100 nm• Length: up to several millimeters at
best, usually a few microns
Properties of CNTs
• Young’s modulus of ~1TPa for SWNT and up to 1,28TPa for MWNT– Steel is at ~0.2TPa…– Wow!
• Highest tensile strength ever mesured – Bone – 130– Steel - ~800– Kevlar – 3620– CNT – 63 000
Mechanical properties
-une paille qui se déplie
Properties of CNTs
• 3 cas: -armchair SWNTare metals
-(n-m) divisible by 3 ar semiconductors with tiny gap -others are semiconductors with ban gap depends on
(diameter)-1
• Semblable pour les MWNTs• The nanotubes conduct current ballistically (without
scattering) -phonons propagate easily along a CNT
-high current with virtually no heating
• Superconductivity observed at low pressure (0.55K)• Expérimentalement, SWNT peut supporter jusqu’à
109A/cm2
pour un métal normal, c’est seulement ~ 105A/cm2
(vaporisation!)
Electrical properties
Des applications intéressantes
Applications of CNTs
• Conductive and high-strength composites; • Field emission displays and radiation sources;• Lampes basée sur les nanotubes;(>8000 hours)• One-dimensional electronics• Energy storage and energy conversion devices;
1. Propriétés électrochimiques des CNTs permet la création de supercondensateurs
2. Electromechanical actuators might be used in robots…eventually
(1)
Applications of CNTs
• Nanometer-sized semiconductor devices
• Vestes anti-balles
• Média d’entreposage d’hydrogène;
• Anti-earthquake buildings
• Production de rayons X et micro-ondes
• Supercapacitors
• Cancer treatment (seen in a previous presentation)
(2)
La production de nanotubes de carbone
CNT production
1. Laser abblation
2. Chemical vapor deposition
3. Arc discharge
4. Plasma torch
CNT productionCarbon arc discharge
• 2 carbon electrodes (3 and 4) vaporized with catalityc metal
• Applied voltage causes plasma between electrodes
• Arc-electrode interaction phenomena limitations
CNT production
• Plasma torch: MegaWatt power scale in industry
• Chercheur de McGill (J-L Meunier):– Possibility to size-up the system
Plasma torch
Problèmes
Problems with CNTs
• Cost of production - high purity: 750$/g
- with impurities: 60$/g
• Diversité des nanotubes– No method available to effectively separate them and/or
produce CNT with only one twist
• Limitations expérimentales dans la production– Par exemple la vitesse d’évaporation du tungstene sur les
électrodes
(1)
Problems with CNTs
• Méthode d’assemblage complexes pour des «réseaux» de nanotubes
• Moins de problèmes avec les MWNTs• Multiton production in early 1990s
• Hyperion Catalysis International Inc
• In Japan, plans for 120 ton/year of MWNT at 75$/kg
(2)
Références
1. Physical properties of carbon nanotubes, ADAMS II, T., (2000) (http://www.pa.msu.edu/cmp/csc/ntproperties/)
2. Carbon nanotubes and related structures:New materials for the 21st century, HARRIS, P.J.F., Am. J. Phys, Vol 72, no.3, p.415, March 2004
3. Atomic chiken wire, LOUIE, S.,(http://www.lbl.gov/wonder/louie-2.html)
4. Carbon nanotube, “Wikipedia”, (http://en.wikipedia.org/wiki/Carbon_nanotube)
5. Carbon nanotubes roll on, Physics Web, (june 2000) (http://physicsweb.org/articles/world/13/6/7/1)[novembre2005]
Références(2)
6. Multiwall carbon nanotubes, Physics Web, (june 2000) (http://physicsweb.org/articles/world/13/6/8/1)[novembre2005]
7. Carbon nanotubes from the dissociation of C2Cl4 using a dc thermal plasma torch, HARBEC D.,MEUNIER J-L., GUO L., J. Phys. D: Appl. Phys. 37, pp.232-239,2121-2126,(2004)
8. Fullerene synthesis in the graphite electreode arc process:local plasma characteristics and correlation with yield, Saïdane K, et al., J. Phys. D: Appl. Phys. 37, pp.232-239,(2004)
9. Carbon Nanotubes--the Route Toward Applications, Science, Vol 297,no.5582, pp 787-792
Questions?
Maintenant c’est votre tour de parler!