2

0

0

6

 

ANNEES

1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001

2002
2003

2004

2005

2006

2007

2008

Les publications du laboratoire

[1] 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.

[2] 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.

[3] 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.

[4] 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.

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

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

[13] 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).

[14] Dislocation dynamics: Short-time existence and uniqueness of the solution,
O. Alvarez, P. Hoch, Y. Le Bouar et R. Monneau (2006),
Archive for Rational Mechanics and Analysis 181 (2006) 449-504.

[15] Geometry of dislocations in icosahedral quasicrystals,
D. Gratias, J. T. Beauchesne, F. Mompiou et D. Caillard,
Philosophical Magazine 86 (2006) 4139-4151.

[16] Unique six-dimensional structural model for Al-Pd-Mn and Al-Cu-Fe icosahedral phases,
M. Quiquandon M. et  D. Gratias,
Phys. Rev. B 74 (2006) 214205.

[17] Quantitative Phase Field Modeling of Precipitation Processes
Q. Bronchart, Y. Le Bouar and A. Finel,
Advanced Engineering Materials, 12 (2006) 8.

[18] Electronic structures of and composition gaps among the ternary carbides Ti2MC,
G. Hug,
Phys. Rev. B 74 (2006) 184113.

[19] Electron-Phonon Coupling in MAX Phase Carbides,
S. E. Lofland, J. D. Hettinger, T. Meehan, A. Bryan, P. Finkel, G. Hug, S. Gupta et M.W. Barsoum,
Phys. Rev. B 74 (2006) 174501.

[20] Early Use Of PbS Nanotechnology for an Ancient Hair Dyeing Formula,
P. Walter, E. Welcomme, P. Hallegot, N. J. Zaluzec, C. Deeb, J. Castaing, P. Veyssière, R. Breniaux, J.-L. Leveque, and G. Tsoucaris,
Nano Lett., 6 (2006) 2215-2219..

[21] Celebrating the career in crystal plasticity of F. R. N. Nabarro, FRS – Foreword,
G. Saada et A. Argon,
Philosophical Magazine 86 (2006) 3809-3809.

[22] Role of internal stresses in co-deformed two-phase materials,
C. W. Sinclair, G. Saada et J. D. Embury,
Philosophical Magazine 86 (2006) 4081-4098.

[23] The activation and the spreading of deformation in a fully lamellar Ti-47 at.% Al-1 at.% Cr-0.2 at.% Si Alloy,
J. B. Singh, G. Molenat, M. Sundararaman, S. Banerjee, G. Saada, P. Veyssière et A. Couret,
Philosophical Magazine 86 (2006) 2429-2450.

[24] In situ straining investigation of slip transfer across alpha lamellae at room temperature in a lamellar TiAl alloy,
J. B. Singh, G. Molenat, M. Sundararaman, S. Banerjee, G. Saada, P. Veyssière et A. Couret,
Philosophical Magazine Letters 86 (2006) 47-60.

[25] Planar Dislocation arrays and crystal plasticity,
G. Saada
Encyclopedia of Materials (Elsevier 2006) p 1-18.
The weak-beam technique applied to the analysis of materials properties,
P. Veyssière,
Journal of Materials Science 41 (2006) 2691-2702.

[26] Dislocation micromechanisms under single slip conditions,
P. Veyssière, Y. L. Chiu et M. Niewczas,
Zeitschrift Fur Metallkunde 97 (2006) 189-199.

[27] Collective Defect Behaviour Under Stress,
L. Kubin,
Science,  312 (2006) 864-865.

[28] Dislocation Patterns and the Similitude Principle: 2.5D Mesoscale Simulations,
D. Gomez-Garcia, B. Devincre et L. P. Kubin,
Phys. Rev. Lett.  96 (2006) 125503.

[29] Micromechanics and microstructure evolution: Modeling, simulation and experiments,
Biner, S. B., J. Llorca, J. R. Morris et L. Kubin (2006),
Acta Materialia 54 (2006) 3405-3405.

[30] Physical analyses of crystal plasticity by DD simulations,
Devincre, B., L. Kubin et T. Hoc,
Scripta Materialia 54 (2006) 741-746.

[31] Solute friction and forest interaction,
G. Monnet et B. Devincre,
Philosophical Magazine 86 (2006) 1555-1565.

[32] Inhibited dynamic recovery and screw dislocation annihilation in multiple slip of fcc single crystals,
L. P. Kubin, B. Devincre et T. Hoc (2006),
Philosophical Magazine 86 (2006) 4023-4036.


.