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Effects of oxygen on multiwall carbon nanotubes
growth by PECVD
- ZHANG Chun-mei, FU Ya-bo, CHEN Qiang, ZHANG Yue-fei
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Laboratory of Plasma Physics and Materials, Beijing Institute of Graphic Communication;
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| Published |
| 05 Mar 2008 |
| Issue Date |
| 05 Mar 2008 |
Abstract
Multiwall carbon nanotubes (MWCNTs) were grown by dielectric barrier discharge (DBD)-type plasma enhanced chemical vapor deposition (PECVD) method in downstream. The temperature was 973 K and the compositions of gases were methane, hydrogen and oxygen in the total pressure of 0.05 MPa. The effect of O2 concentration in the mixture on the configuration of carbon nanotubes (CNTs) was investigated in detail. Results from scanning electron microscope (SEM) and transmission electron microscope (TEM) showed that CNTs grown in CH4/H2 (38.6%/61.4%, volume) mixture have many defects and contained disordered graphitic materials. With the addition of appropriate amount of O2 (∼ 0.67%), high-purity CNTs could be obtained. However, no CNT, even no carbon matrix existed under the condition of an excessive oxygen concentration (> 1.0%, volume) in the mixture. In order to understand the role of O2 during CNTs growth, optical emission spectroscopy (OES) was in-situ employed and the results predicted that the improvement of CNTs quality in O2 addition was attributed to the effect of OH oxidation from the reaction of atomic oxygen with hydrogen in the plasma.
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ZHANG Chun-mei, FU Ya-bo, CHEN Qiang, ZHANG Yue-fei.
Effects of oxygen on multiwall carbon nanotubes
growth by PECVD. Front. Mater. Sci., 2008, 2(1): 37‒41 https://doi.org/10.1007/s11706-008-0007-7
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References
1. Poa C H Silva S R P Watts P C P et al.Field emission from nonaligned carbon nanotubesembedded in a polystyrene matrixAppliedPhysics Letters 2002 80(17)31893191
2. Bonard J Dean K A Coll B F et al.Field emission of individual carbon nanotubes inthe scanning electron microscopePhysicalReview Letters 2002 89(19)197602 (4 pages)
3. Choi W B Chu J U Jeong K S et al.Ultrahigh-density nanotransistors by using selectivelygrown vertical carbon nanotubesAppliedPhysics Letters 2001 79(22)36963698
4. Haruyama J Takesue I Sato Y Coulomb blockade in a single tunnel junction directly connectedto a multiwalled carbon nanotubeAppliedPhysics Letters 2000 77(18)28912893
5. Modi A Koratkar N Lass E et al.Miniaturized gas ionization sensors using carbonnanotubesNature 2003 424(6945)171174
6. Murakami Y Chiashi S Miyauchi Y et al.Growth of vertically aligned single-walled carbonnanotube films on quartz substrates and their optical anisotropyChemical Physics Letters 2004 385(3–4)298303
7. Hata K Futaba D N Mizuno K et al.Water-assisted highly efficient synthesis of impurity-freesingle-walled carbon nanotubesScience 2004 30613621364
8. Kim C Lee Y Kyung S et al.Characteristics of carbon nanotubes deposited byusing low-temperature atmospheric-pressure plasma-enhanced chemicalvapor depositionJournal of The Korean PhysicalSociety 2005 46(4)918921
9. Jiang N Chen H - Y Qian S - F A novel reactive gas source and its application to carbonnanotube film depositionChinese PhysicsLetters 2005 22(1)161163
10. Ikuno T Honda S - I Kamada K et al.Effect of oxygen addition to methane on growth ofvertically oriented carbon nanotubes by radio-frequency plasma-enhancedchemical-vapor depositionJournal of AppliedPhysics 2005 97104329 (4 pages)
11. Juang Z Y Lai J F Weng C H et al.On the kinetics of carbon nanotube growth by thermalCVD methodDiamond and Related Materials 2004 13(11–12)21402146
12. Chhowalla M Teo K B K Ducati C et al.Growth process conditions of aligned carbon nanotubesusing plasma enhanced chemical vapor depositionJournal of Applied Physics 2001 90(10)53085317
13. Valentini L Kenny J M Lozzi L et al.Formation of carbon nanotubes by plasma enhancedchemical vapor deposition: Role of nitrogen and catalyst layer thicknessJournal of Applied Physics 2002 92(10)61886194
14. Lee T Y Han J - H Choi S H et al.Effects of source gases on the growth of carbonnanotubesDiamond and Related Materials 2003 12(3–7)851885
15. Benndorf C Joeris P Kroger R Mass and optical emission spectroscopy of plasmas for diamondsynthesisPure and Applied Chemistry 1994 66(6)11951206
16. Lee H Kang Y - S Lee P S et al.Hydrogen plasma treatment on catalyst layer andeffect of oxygen additions on plasma enhanced chemical vapor depositionof carbon nanotubeJournal of Alloys andCompounds 2002 330–332569573
17. Zhang G Y Mann D Zhang L et al.Ultra-high-yield growth of vertical single-walledcarbon nanotubes: Hidden roles of hydrogen and oxygenPNAS 2005 102(45)1614116145
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