Les publications sur les nanotubes

 

2009

[116] Nitrogen Configuration in Individual CNx-SWNTs Synthesized by Laser Vaporization Technique
H. Lin, R. Arenal, S. Enouz-Vedrenne, O. Stephan, and A. Loiseau
J. Phys. Chem C 113, 9509  (2009)

[115] Substrate preparation techniques for direct investigation by TEM of single wall carbon nanotubes grown by chemical vapor deposition
M.-F. Fiawoo, A.-M. Bonnot, V. Jourdain, T. Michel, M. Picher, R. Arenal, J. Thibault-Pénisson and A. Loiseau
Surface Science 603, 1115 (2009)

[114] Transmission electron microscopy and UV-vis-IR spectroscopy analysis of diameter sorting of carbon nanotubes by gradient density ultracentrifugation
R. Fleurier, J.S. Lauret, U. Lopez, and A. Loiseau
Adv. Funct. Mat. 19, 2219 (2009).

[113] Sorting and transmission electron microscopy analysis of single or double wall carbon nanotubes
R. Fleurier, J.S. Lauret, E. Flahaut and A. Loiseau
Physica Status Solidi B246, 2675 (2009)

[112] Electronic and optical properties of boron nitride nanostructures obtained by laser vaporization method
L.G. Bulusheva, Yu. V. Lavskaya, V. O. Koroteev, P. N. Gevko, A. V. Okotrub and A. Loiseau
J. of Nanoelectronics and Optoelectronics 4, 271 (2009)

[111] A versatile strategy for the functionalization of boron nitride nanotubes
A. Maguer, E. Leroy, L. Bresson, E. Doris, A. Loiseau and C. Mioskovski
J. of Materials Chemistry 19, 1271 (2009)

[110] Single-walled heteroatomic NTs of BN, CNx and NxCyNz
R. Arenal et A. Loiseau
in  “Boron Nitride Nanotubes and related”, ed. by Y.K. Yap, Springer (Heidelberg), Chapter 3 (2009)

[109] Tight-binding potential for atomistic simulations of carbon interacting with transition metals :  Application to the Ni-C system
H. Amara, J.-M. Roussel, C. Bichara, J.-P. Gaspard and F. Ducastelle,
Phys. Rev. B 79, 014109 (2009)

[108] Early stages in the Nucleation Process of Carbon Nanotubes
M. Moors, H. Amara, T. Visart de Bocarmé, C. Bichara, F. Ducastelle, N. Kruse, and J.-C. Charlier,   
ACS Nano 3, 511 (2009)

[107] Computational Studies of Metal-Carbon Nanotube Interfaces for regrowth and Electronic Transport
A. Börjesson, W. Zhu,  H. Amara, C. Bichara and K. Bolton,
NanoLett. 9, 1117 (2009)

[106] Spin-Unrestricted Calculations of Bare-Edges nanographenes using DFT and Many-body perturbation theory
R. Pollet and H. Amara,
J. Chem. Theory Comput.  5, 1719 (2009)

[105] Density Functionnal Theory and Tight-Binding-Based Dynamical Studies of Carbon-Metal Systems of  Relevance to Carbon Nanotube Growth
K. Bolton, A. Börjesson, W. Zhu, H. Amara et C. Bichara,
Nano Res 2, 774 (2009)

2008

[104] Interaction of carbon clusters with Ni(100): Application to the nucleation of carbon nanotubes
H. Amara, C. Bichara et F. Ducastelle
Surface Science 602 (2008) 77–83.
doi:10.1016/j.susc.2007.09.04

[103] Understanding the Nucleation Mechanisms of Carbon Nanotubes in Catalytic Chemical Vapor Deposition
H. Amara, C. Bichara et F. Ducastelle
Phys. Rev. Letters 100 (2008) 056105.
doi: 10.1103/PhysRevLett.100.015702

[102] Laser-based diagnostics applied to the study of BN nanotubes synthesis
M. Cau, N. Dorval, B. Attal-Trétout, J.L. Cochon, B. Cao, L. Bresson, P. Jaffrennou, M. Silly, A. Loiseau, and E.D. Obraztsova
J. Nanosci. Nanotechnol. 8 (2008) 1-12.

[101] Effect of the synthesis method on the distribution of C, B and N elements in multiwall nanotubes: a spatially-resolved electron energy loss spectroscopy study
S. Enouz-Védrenne, O. Stéphan, M. Glerup, JL. Cochon, C. Colliex, A. Loiseau
J. of Physical Chemistry C 112 (2008) 16422.
DOI: 10.1021/jp802583y

[100] Near-band-edge recombinations in multiwalled boron nitride nanotubes: Cathodoluminescence and photoluminescence spectroscopy measurements
P. Jaffrennou, J. Barjon, T. Schmid, L. Museur, A. Kanaev, J.-S. Lauret, C. Y. Zhi, C. Tang, Y. Bando, D. Golberg, B. Attal-Tretout, F. Ducastelle, and A. Loiseau
Phys. Rev. B. 77 (2008) 235422.
doi: 10.1103/PhysRevB.77.235422

[99] Combined STM/STS, TEM/EELS investigation of CNx−SWNTs
H. Lin, J. Lagoute, C. Chacon, R. Arenal, O. Stephan, V. Repain, Y. Girard, S. Enouz, L. Bresson, S. Rousset, and A. Loiseau
Physica Status Solidi (b) 245 (2008) 1986.
DOI:10.1002/pssb.200879634 

[98] Extending the analysis of EELS spectrum-imaging data, from elemental to bond mapping in complex nanostructures
R. Arenal, O. Stephan, F. de la Pena, M. Walls, A. Loiseau, C. Colliex.
Ultramicroscopy 109 (2008) 32.
DOI: 10.1016/j.ultramic.2008.07.005 

[97] Optical gap measurements of Boron Nitride nanotubes by EELS
R. Arenal, O. Stephan, M. Kociak, D. Taverna, A. Loiseau, C. Colliex. 
Microscopy & Microanalyis 14(2008)274.
DOI: 10.1017/S1431927608080331

[96] Probing high pressure properties of single wall carbon nanotubes through fullerene encapsulation
Ch. Caillier, D. Machon, A. San Miguel, R. Arenal, G. Montagnac, H. Cardon, M. Kalbac, M. Zukalova, L. Kavan. Physical Review B 77 (2008) 125418. DOI: 10.1103/PhysRevB.77.125418

[95] Optical absorption of boron nitride nanomaterials
,P. Gevko, L. Bulusheva, A. Okotrub, V. Koroteev, I. Yushina, L. Bresson and A. Loiseau
Physica Status Solidi (b) 245 (2008) 2107–2110.
DOI:10.1002/pssb.200879600

[94] A tight-binding Grand Canonical Monte Carlo Study of the Catalytic Growth of Carbon Nanotubes
H. Amara, C. Bichara, F. Ducastelle
J. Nanosci. Nanotech. 8 (2008) 6099-6104.

2007

[93] Luminescence properties of hexagonal boron nitride: Cathodoluminescence and photoluminescence spectroscopy measurements
M. G. Silly, P. Jaffrennou, J Barjon, J. S. Lauret, F. Ducastelle, A. Loiseau, E. D. Obraztsova, B. Attal-Trétout et E. Rosencher
Phys. Rev. B 75 (2007)  085205
doi: 10.1103/PhysRevB.75.085205

[92] Optical properties of multiwall boron nitride nanotubes
P. Jaffrennou, J. Barjon, J.-S. Lauret, A. Maguer, D. Golberg, B. Attal-Trétout, F. Ducastelle et A. Loiseau
Phys. stat. sol. (b), 244 (2007) 4147-4151
doi :10.1002/pssb.200776109

[91] Thermodynamic analysis of nucleation of boron nitride nanotubes on metal particles
V. L. Kuznetsov, I. N. Mazov, A. I. Delidovich, E. D. Obraztsova et A. Loiseau
Phys. stat. sol. (b), 244 (2007) 4165-4169
doi :10.1002/pssb.200776171

[90] Cathodoluminescence imaging and spectroscopy on a single multiwall boron nitride nanotube
P. Jaffrennou, F. Donatini, J. Barjon, J.-S. Lauret, A. Maguer, B. Attal-Tretout, F. Ducastelle et A. Loiseau
Chemical Physics Letters 442 (2007) 372–375
doi:10.1016/j.cplett.2007.06.001

[89] Origin of the excitonic recombinations in hexagonal boron nitride
by spatially resolved cathodoluminescence spectroscopy
P. Jaffrennou, J. Barjon, J.-S. Lauret, B. Attal-Trétout, F. Ducastelle et A. Loiseau
Journal of Applied Physics 102 (2007) 116102
doi: 10.1063/1.2821413

[88] Purification of Single-Walled Boron Nitride Nanotubes and Boron Nitride Cages
A. Maguer, R. Arenal, P. Jaffrennou, J. L. Cochon, L. Bresson, E. Doris, C. Mioskowski et A. Loiseau
Journal of Nanoscience and Nanotechnology 7 (2007) , 1–5
doi:10.1166/jnn.2007.829

[87] Spectroscopic Study of Nitrogen Doping of Multiwall Carbon Nanotubes
S. Enouz, J. L. Bantignies, M. R. Babaa, L. Alvarez, P. Parent, F. Le Normand, O. Stéphan, P. Poncharal, A. Loiseau et B. Doyle
Journal of Nanoscience and Nanotechnology 7 (2007) 1–4
doi:10.1166/jnn.2007.839

[86] Root-Growth Mechanism for Single-Walled Boron Nitride Nanotubes in Laser Vaporization Technique
R. Arenal, O. Stephan, J.-L. Cochon, et A. Loiseau
J. Am. Chem. Soc. (2007)
doi: 10.1021/ja076135n

[85] C-BN patterned single-walled nanotubes synthesized by laser vaporization
S. Enouz O. Stéphan J.L. Cochon C. Colliex et A. Loiseau
Nanoletters, 7 (2007)1856-1862
doi: 10.1021/nl070327z

[84] Nitrogen doped carbon nanotubes produced by solar energy
D. Luxembourg G. Flamant D. Laplaze J.L. Sauvajol S. Enouz et A. Loiseau
Fullerenes, Nanotubes and Carbon nanostructures
15 (2007) 257-266.
doi : 10.1080/15363830701421470

[83] Mild dissolution of carbon nanotubes : Composite carbon nanotube fibres from polyelectrolytesolutions
A. Pénicaud, L. Valat, A. Derre, P. Poulin, C. Zakri, O. Roubeau, M. Maugey, P. Miaudet, P. Petit A. Loiseau et S. Enouz
Composites Science and Technology, 67 (2007) 795-797
doi:10.1016/j.compscitech.2005.12.032

[82] Interaction of carbon clusters with Ni(100) : Application to the nucleation of carbon nanotubes
H. Amara, C. Bichara et F. Ducastelle
Surface Science,  (2007)
doi :10.1016/j.susc.2007.09.045

[81] A TEM in situ experiment as a guideline for the synthesis of as-grown ordered CoPt nanoparticles
D. Alloyeau, C. Langlois, C. Ricolleau, Y. Le Bouar et A. Loiseau
Nanotechnology 18 (2007) 375301
doi:10.1088/0957-4484/18/37/375301

[80] STEM nanodiffraction technique for structural analysis of CoPt nanoparticles
D. Alloyeau, C. Ricolleau, T. Oikawa, C. Langlois, Y. Le Bouar, A. Loiseau
Ultramicroscopy
doi:10.1016/j.ultramic.2007.10.006

2006

[79] Periodic inclusion of room-temperature-ferromagnetic metal phosphide nanoparticles in carbon nanotubes,
V. Jourdain, E. T. Simpson, M. Paillet, T. Kasama, R. E. Dunin-Borkowski, P. Poncharal, A. Zahab, A. Loiseau, J. Robertson, et P. Bernier,
J. Phys. Chem. B 110 (2006) 9759-9763.

[78] Spatial evolutions of Co and Ni atoms during single-walled carbon nanotubes formation: Measurements and modeling,
M. Cau, N. Dorval, B. Cao, B. Attal-Trétout, J. L. Cochon, A. Loiseau, S. Farhat, et C. D. Scott,
J. Nanoscience and Nanotechnology, 6 (2006) 1298-1308.

[77] Synthesis of single-walled carbon nanotubes by laser vaporization: Ex situ and in situ measurements,
M. Cau, N. Dorval, B. Attal-Trétout, J.-L. Cochon, D. Pigache, A. Loiseau, N. R. Arutyunyan, E. D. Obraztsova, V. Krüger et M. Tsurikov,
Physica status solidi (b), 243 (2006) 3063-3068.

[76] Oriented growth of suspended single wall carbon nanotube by Hot Filament CVD,
A. Iaia, L. Marty, C. Naud, V. Bouchiat, A. Loiseau, E. Di Muoio, T. Fournier, et A.-M. Bonnot,
Thin Film Solids, 501 (2006) 221-223.

[75] Raman spectroscopy of single-wall boron nitride nanotubes,
R. Arenal, A. C. Ferrari, S. Reich, L. Wirtz, J. Y. Mevellec, S. Lefrant, A. Rubio et A. Loiseau, Nano Letters 6 (2006)1812-1816.

[74] Optical gap measurements of Boron Nitride nanotubes by EELS,
R. Arenal, O. Stéphan, M. Kociak, D. Taverna, A. Loiseau, C. Colliex (2006),
Microscopy and Microanalysis 12 (2006) 1166.

[73] Determination of chiral indices of individual single- and double-walled boron nitride nanotubes by electron diffraction,
R. Arenal, M. Kociak, A. Loiseau et D. J. Miller (2006),
Applied Physics Letters 89 (2006) 7.

[72] Thermal effects in Raman spectra of hexagonal boron nitride and nanotube-containing boron nitride soot,
N. R. Arutyunyan, E.D. Obraztsova, M. Silly, P. Jaffrennou, B. Attal-Trétout, A. Loiseau et A.L. Chuvilin,
Physica status solidi (b)  243 (2006) 3316-3319.

[71] Synthesis and structure of BN-doped multi-walled and single-walled carbon nanotubes,
S. Enouz,  O. Stéphan, M. Glerup, J.-L. Cochon, C. Colliex, et A. Loiseau,
Physica status solidi (b), 243 (2006) 3246-3251.

[70] Periodic inclusion of room-temperature-ferromagnetic metal phosphide nanoparticles in carbon nanotubes,
V. Jourdain, E. T. Simpson, M. Paillet, T. Kasama, R. E. Dunin-Borkowski, P. Poncharal, A. Zahab, A. Loiseau, J. Robertson et P. Bernier,
Journal of Physical Chemistry B 110 (2006) 9759-9763.

[69] Formation of carbon nanostructures on nickel surfaces: A tight-binding grand-canonical Monte Carlo study,
H. Amara, C. Bichara et F. Ducastelle,
Phys. Rev. B 73 (2006) 113404.

[68] Electronic structure of nanotubes, dans « Understanding carbon nanotubes : from basics to applications »,
F.   Ducastelle,
Springer, Series lecture Notes in Physics, vol 677 (2006).

[67] Synthesis methods and growth mechanisms et Structural analysis by elastic scattering techniques, dans « Understanding carbon nanotubes : from basics to applications »,
A. Loiseau,
Springer, Series lecture Notes in Physics, vol 677 (2006).

2005

[66] Optical Transitions in Single-Wall Boron Nitride Nanotubes,
J. S. Lauret, R. Arenal, F. Ducastelle, A. Loiseau, M. Cau, B. Attal-Tretout, E. Rosencher et L. Goux-Capes,
Phys. Rev. Lett. 94 (2005) 037405.

[65] Electron Energy Loss Spectroscopy Measuremen t of the Optical Gaps
on Individual Boron Nitride Single-Walled and Multiwalled Nanotubes,

R. Arenal, O. Stéphan, M. Kociak, D. Taverna, A. Loiseau et C. Colliex,
Phys. Rev. Lett. 95 (2005) 127601.

[64] Resonant Raman scattering in cubic and hexagonal boron nitride,
S. Reich, A. C. Ferrari, R. Arenal, A. Loiseau, I. Bello et J. Robertson,
Phys. Rev. B 71 (2005) 205201.

[63] Relevant synthesis parameters for the sequential catalytic growth of carbon nanotubes,
V. Jourdain, M. Paillet, R. Almairac, A. Loiseau et P. Bernier,
J. Phys. Chem. B 109 (2005) 1380.

2004


[62] Synthesis of N-doped SWNT using the arc-discharge procedure,
M. Glerup, J. Steinmetz, D. Samaille, O. Stephan, S. Enouz, A. Loiseau,
S. Roth et P. Bernier,
Chemical Physics Letters 387 (2004) 193–197.

[61] Controlling the morphology of multiwalled carbon nanotubes by sequential catalytic growth induced by phosphorus,
V. Jourdain, O. Stéphan, M. Castignolles, A. Loiseau et P. Bernier,
Adv. Mater. 16 (2004) 447-453.

[60] Nucleation and growth of single-walled nanotubes: the role of metallic catalysts,
J. Gavillet, J. Thibault, O. Stéphan, H. Amara, A. Loiseau, Ch. Bichara, J.-P. Gaspard, et F. Ducastelle,
Journal of Nanosciences and Nanotechnology 4 (2004) 346-359

[59] In-situ optical analysis of the gas phase during the formation of carbon nanotubes,
N. Dorval, A. Foutel-Richard, M. Cau, A. Loiseau, B. Attal-Trétout, J. L. Cochon, D. Pigache, P. Bouchardy, V. Krüger, et K. P. Geigle,
Journal of Nanosciences and Nanotechnology 4 (2004) 450-462.

2003


[58] Integrating vertically aligned carbon nanotubes on micromechanical structures,
W. H. Teh, C. G. Smith, K. B. K. Teo, R. G. Lacerda, G. A. J. Amaratunga, W. I. Milne, M. Castignolles et A. Loiseau,
J. Vac. Sci. Technol. B 21 ( 2003) 1380-1383.

[57] Synthesis of multi-walled carbon nanotubes and nano-fibres using the aerosol method with metal-ions as the catalyst precursor,
M. Glerup, H. Kanzow, R. Almairac, M. Castignolles and P. Bernier,
Chemical Physics Letters 377 (2003) 293-298.

[56] Synthesis of highly nitrogen-doped multi-walled carbon nanotubes,
M. Glerup, M. Castignolles, M. Holzinger, G. Hug, A. Loiseau et P. Bernier,
Chem. Commun., 20 (2003), 2542-2543.

[55] Nucleation and growth of SWNT : TEM studies of the role of the catalyst,
A.Loiseau, J. Gavillet, F. Ducastelle, J. Thibault, O. Stéphan, P. Bernier et S. Thair,
C. R. Physique 4 (2003) 975-991.

[54]Carbon nanotubes: from science to applications
P. Petit, A. Loiseau
C. R. Physique 4 (2003) 967-974.

[53]Ab initio calculations of the lattice dynamics of boron nitride nanotubes
L. Wirtz, A. Rubio, R. Arenal de la Concha, et A. Loiseau,
Phys. Rev. B 68 (2003) 45425.

[52]Boron nitride nanotubes : electrical transport and field effect transistors,
M. Radosavljevic, J. Appenzeller, V. Derycke, R. Martel, Ph. Avouris, J.-L. Cochon, D. Pigache et A. Loiseau,
App. Phys. Letters 82 (2003), 4131 - 4133.

2002

[51] Microscopic mechanisms for the catalyst assisted growth of single-wall carbon nanotubes,
GAVILLET J., LOISEAU A., DUCASTELLE F, THAIR S., BERNIER P., STEPHAN O., THIBAULT J. et CHARLIER J.-C.,
Carbon 40 (2002) 1649-1663.

[50] Structure of carbon nanotubes probed by local and global probes,
LAMBIN P., LOISEAU A., CULOT C. et BIRO L. P.,
Carbon 40 (2002) 1635-1648.

[49] Sequential catalytic growth of carbon nanotubes,
JOURDAIN V., KANZOW H., CASTIGNOLLES M., LOISEAU A. et BERNIER P.,
Chem. Phys. Letters 364 (2002) 27-33.

2001

[48] Electronic effects in scanning tunneling microscopy of dendritic, Cr-filled carbon nanotubes
ZHA F.-X., CARROLL D. L., CZERW R., LOISEAU A., PASCARD H.,
CLAUSS W. et ROTH S.,
Phys. Rev. B 63 165432-1 à 5.

[47] Catalyst-free synthesis of boron nitride single-wall nanotubes with a preferred zig-zag configuration,
LEE R. S., GAVILLET J., LAMY DE LA CHAPELLE M., LOISEAU A., COCHON J.-L., PIGACHE D., THIBAULT J. et WILLAIME F.,
Phys. Rev. B 64 (2001) 121405(R) 1-4.

[46] Diameter control of single-walled carbon nanotubes using argon-helium mixture gases,
FARHAT S., LAMY DE LA CHAPELLE M., LOISEAU A., SCOTT C. D., LEFRANT S., JOURNET C., BERNIER P.,
J. Chem. Phys. 115 (2001) 6752-6759.

[45] Root growth mechanism for single-wall nanotubes,
GAVILLET J., LOISEAU A., JOURNET C., WILLAIME F., DUCASTELLE F. et CHARLIER J.-C.,
Phys. Rev. Letters 87 (2001) 275504.

2000

[44] Study of the symmetry of single-wall nanotubes by electron diffraction,
L. Henrard, A. Loiseau, C. Journet et P. Bernier,
Eur. Phys. J. B 13 (2000) 661-669.

[43] Scanning tunneling microscopy of chromium-filled carbon nanotubes: Tip effects and related topographic features,
F.-X. Zha, R. Czerw, D. L. Carroll, P. Kohler-Redlich, B.-Q. Wei, A. Loiseau et S. Roth,
Phys. Rev. B 61 (2000) 4884-4889.

[42] Filling carbon nanotubes using an arc discharge,
Loiseau, N. Demoncy, O. Stéphan, C. Colliex et H. Pascard,
Science and Application of Nanotubes, edited by Tomanek and Enbody (Kluwer Academic/Plenum Publishers, New York, 2000) 1-16.

[41] Investigation of the role of Yttrium in the production of SWNT by arc discharge,
J. Gavillet, A. Loiseau, O. Stephan, S. Tahir et P. Bernier,
Electronic Properties of Novel Materials- Molecular Nanostructures, edité par H. Kuzmany et al. (American Institute of Physics, 2000) 222-225.

[40] Filled and mixed nanotubes: from TEM studies to the growth mechanism within a phase-diagram approach,
A. Loiseau et F. Willaime,
Applied Surface Science, 164 (2000) 227-240.

[39] Cutting single wall carbon nanotubes,
I. Stepanek, G. Maurin, P. Bernier, J. Gavillet, et A. Loiseau,
Mat. Res. Soc. Symp. Proc. 593 (2000).119-122

[38] Quantitative electron diffraction study of single wall carbon nanotubes,
L. Henrard, A. Loiseau, C. Journet et P. Bernier,
Proceedings of EUREM 12, (2000) 225-226

[37] Multicomponent and multiphase nanotubes: BN, BN-C and filled tubes,
F. Willaime, A. Loiseau, N. Demoncy, K. Suenaga, C. Colliex et H. Pascard,
Proceedings of EUREM 12, (2000) 229-232.

[36] Catalyst free synthesis of BN single wall nanotubes by laser ablation,
J. Gavillet, M. Lamy de la Chapelle, J.-L. Cochon, D. Pigache et A. Loiseau,
Proceedings of EUREM 12, (2000) 261-262.

[35] Nano-mechanical cutting and opening of single wall carbon nanotubes,
I. Stepanek, G. Maurin, P. Bernier, J. Gavillet, A. Loiseau, R. Edwards, O. Jaschinski,
Chem. Phys. Lett. 331 (2000), 125.

1999

[34] Purification des nanotubes de carbone monofeuillets,
L. Vaccarini, C. Goze, R. Aznar, V. Micholet, C. Jounet, P. Bernier, K. Metenier, F. Béguin, J. Gavillet et A. Loiseau,
C. R. Acad. Sci. Paris, 327, Série II b (1999) 925-931.

[33] Organisation of carbon and boron nitride layers in mixed nanoparticles and nanotubes synthetized by arc discharge,
K. Suenaga, F. Willaime, A. Loiseau et C. Colliex,
Appl. Phys. A 68 (1999) 301-308.

[32] Sulfur: the key for filling nanotubes with metals,
N. Demoncy, O. Stéphan, N. Brun, C. Colliex, A. Loiseau et H. Pascard,
Synthetic Metals 103 (1999) 2380-2383.

[31] What is the chirality of single wall nanotubes produced by arc-discharge ? An electron diffraction study,
L. Henrard, A. Loiseau, C. Journet et P. Bernier,
Synthetic Metals 103 (1999) 2433-2436.

[30] Single wall carbon nanotubes : two ways of production,
C. Journet, L. Alvarez, V. Micholet, T. Guillard, M. Lamy de la Chapelle, E. Anglaret, J. L. Sauvajol, S. Lefrant, P. Bernier, D. Laplaze, G. Flamant et A. Loiseau,
Synthetic Metals 103 (1999) 2488-2489.

[29] A continuous wave CO2 laser reactor for nanotubes synthesis,
J.-L. Cochon, J. Gavillet, M. Lamy de la Chapelle, A. Loiseau, M. Ory et D. Pigache,
Electronic Properties of Novel Materials-Science and Technology of Molecular Nanostructures,
edité par H. Kuzmany, J. Fink, M. Mehring et S. Roth (AIP, 1999) 237-240.

[28] Sulfur: the key for filling nanotubes with metals,
A. Loiseau , N. Demoncy, O. Stéphan, C. Colliex et H. Pascard,
Electronic Properties of Novel Materials-Science and Technology of Molecular Nanostructures,
edité par H. Kuzmany, J. Fink, M. Mehring et S. Roth (AIP, 1999) 268-272.

1998

[27] Filling carbon nanotubes with metals by tsulfur,he arc-discharge method: the key role of
N. Demoncy, O. Stéphan, N. Brun, C. Colliex, A. Loiseau and H. Pascard,
Eur. Phys. J. B 4 (1998) 185-190.

[26] Bundles of carbon single wall nanotubes: production by the arc discharge technique and characterization,
C. Journet, W. K. Maser, P. Bernier, A. Loiseau, M. Lamy de la Chapelle, P. Deniard, S. Lefrant, R. Lee, J. E. Fischer,
Molecular Nanostructures, edité par H. Kuzmani, J. Fink, M. Mehring et S. Poth
(World Scientific, Singapore, 1998), p. 386-390.

[25] Boron nitride nanotubes: synthesis and tip characterization,
F. Willaime, A. Loiseau, X. Deschanels, N. Demoncy, G. Hug, C. Colliex,
H. Pascard,
Molecular Nanostructures, edité par H. Kuzmani, J. Fink, M. Mehring et S. Poth
(World Scientific, Singapore, 1998), p. 399-304.

[24] Raman studies on single walled carbon nanotubes produced by the electric arc technique,
M. Lamy de la Chapelle, S. Lefrant, C. Journet, W. Maser, P. Bernier, A. Loiseau,
Molecular Nanostructures, edité par H. Kuzmani, J. Fink, M. Mehring et S. Poth
(World Scientific, Singapore, 1998), p. 463-466.

[23] Carbon nanotubes: the solar approach,
D. Laplaze, P. Bernier, W. K. Maser, G. Flamant, T. Guillard, A. Loiseau,
Carbon 36 (1998) 685-688.

[22] Carbon single wall nanotubes: elaboration and properties,
P. Bernier, W. K. Maser, C. Journet, A. Loiseau, M. Lamy de la Chapelle, S. Lefrant, R. Lee et J. Fischer,
Carbon 36 (1998) 675 - 680.

[21] Raman studies on single wall nanotubes produced by the electric arc technique,
M. Lamy de la Chapelle, S. Lefrant, W. K. Maser, P. Bernier, W. K. Maser, A. Loiseau,
Carbon 36 (1998) 705 -708.

[20] Boron nitride nanotubes,
A. Loiseau, F. Willaime, N. Demoncy, N. Shramchenko, G. Hug, C. Colliex, H. Pascard,
Carbon 36 (1998) 743 - 752.

[19] Formation of small single-layer and nested BN cages under electron irradiation of nanotubes and bulk material,
O. Stéphan, Y. Bando, A. Loiseau, F. Willaime, N. Shramchenko, T. Tamiya, T. Sato,
Appl. Phys. A 67 (1998) 107-111.

[18] Production of carbon single wall nanotubes versus experimental parameters
C. Journet, V. Micholet, P. Bernier, W. K. Maser, A. Loiseau,
M. Lamy de la Chapelle, S. Lefrant, R. Lee, J. E. Fischer,
Electronic properties of novel materials - progress in molecular nanostructures, édité par H. Kuzmani, J. Fink, M. Mehring et S. Roth (AIP, Woodbury, New York, 1998), vol. 442 p. 3 - 11.

[17] Carbon single wall nanotubes: elaboration and physical properties,
P. Bernier, C. Journet, W. K. Maser, A. Loiseau, M. Lamy de la Chapelle, S. Lefrant, P. Deniard, R. Lee, J. E. Fischer,
Condens. Matter News 6 (1998) 51 - 56.

[16] Formation of BN onions of octahedral symmetry under intense electron irradiation regime of turbostratic BN,
O. Stéphan, Y. Bando, F. Willaime, A. Loiseau, K. Kurashima, T. Tamya,
Electron Microscopy 1998, Proceedings of the 14th International Congress on Electron Microscopy, (IOP, Bristol, 1998) vol 3, p. 123.

[15] Sulfur: the key for filling carbon nanotubes with metals,
N. Demoncy, O. Stéphan, N. Brun, C. Colliex, A. Loiseau, H. Pascard,
Electron Microscopy 1998, Proceedings of the 14th International Congress on Electron Microscopy, (IOP, Bristol, 1998) vol 3, p. 69.

[14] Nano-EELS characterization of the BN/C composite nanotubes and onions,
K. Suenaga, C. Colliex, F. Willaime, H. Pascard, N. Demoncy, A. Loiseau,
Electron Microscopy 1998, Proceedings of the 14th International Congress on Electron Microscopy, (IOP, Bristol, 1998) vol 3, p. 95.

[13] Boron nitride nanotubes,
A. Loiseau,
Electron Microscopy 1998, Proceedings of the 14th International Congress on Electron Microscopy, (IOP, Bristol, 1998) vol 3, p. 113.

[12] Bundles of single wall nanotubes produced by the electric arc technique,
A. Loiseau, C. Journet, L. Henrard, P. Bernier, M. Lamy de la Chapelle, S. Lefrant,
Electron Microscopy 1998, Proceedings of the 14th International Congress on Electron Microscopy, (IOP, Bristol, 1998) vol 3, p. 115.

[11] Orientation sensitive EELS-analysis of boron nitride nanometric hollow spheres,
C. Souche, B. Jouffrey, G. Hug, M. Nelhiebel,
Micron, 29 (1998) 419-424.

1997

[10] Large scale production of single wall carbon nanotubes by the electric arc technique,
C. Journet, W. K. Maser, P. Bernier, A. Loiseau, M. Lamy de la Chapelle, S. Lefrant, P. Deniard, R. Lee et J. E. Fischer,
Nature 388 (1997) 756-758.

[9] Synthesis of Nanoparticles and Nanotubes with well-separated layers
of boron nitride and carbon,

K. Suenaga, C. Colliex, N. Demoncy, A. Loiseau, H. Pascard, F. Willaime,
Science, 278 (1997) 653-5.

[8] Cap structure of the coaxial BCN nanotubes investigated by nano-EELS,
K. Suenaga, O. Stephan, C. Colliex, F. Willaime, H. Pascard,
N. Demoncy et A. Loiseau,
Int. Phys. Conf. Ser. 153 (1997) 375-378.

[7] Carbon single wall nanotubes: elaboration and physical properties,
P. Bernier, C. Journet, W. K. Maser, A. Loiseau, M. Lamy de la Chapelle, S. Lefrant, P. Deniard, R. Lee et J. E. Fischer,
Condensed Matter News, Vol 6, Issue 3 (1997) 1-6.

[6] Experimental evidence of the Néel-Brown theory of magnetization reversal,
W. Wernsdorfer, E. Bonet Orozco, K. Hasselbach, A. Benoit, B. Barbara, N. Demoncy,  A. Loiseau, H. Pascard et D. Mailly. Phys. Rev. Letters, 78 (1997), 1791-1794.

1996

[5] Boron nitride nanotubes with reduced numbers of layers synthesized by arc discharge,
A. Loiseau, F. Willaime, N. Demoncy, G. Hug et H. Pascard,
Phys. Rev. Lett., 76 (1996) 4737.

[4] Synthesis of long carbon nanotubes filled with Se, S, Sb and Ge by the arc method,
A. Loiseau and H. Pascard,
Chemical Physics Letters 256 (1996) 246-252.

[3] Study of fullerenes, nanotubes and nanowires by transmission electron  microscopy,
A. Loiseau,
Science and Technology (1996)

[2] Emballages carbone!
P. Bernier, A. Loiseau, W. Maser,  H. Pascard et F. Willaime,
La Recherche (novembre 1996)

1994

[1] Relation between Metal Electronic Structure and Morphology of Metal Compounds inside Carbon Nanotubes
C. Guerret-Piécourt, Y. Le Bouar, A. Loiseau  and H. Pascard
Nature, 372, 761-765 (1994).