Mario Favre |
Plasma Applications 1.
G. Muñoz,
P. Homm, F. Guzmán , H.
M. Ruiz , L. S. Caballero, M. Favre,
M. Flores and S. Hevia, “Pulsed laser deposition of carbon nanodots”, 15th Latin American Workshop on
Plasma Physics (January 27-31, 2014, San José, Costa Rica), J. Physics: Conf. Series 591, 012047 (2015). 2. M. Cisternas, F. Mellero,
M.
Favre, H. Bhuyan and E Wyndham, “TiN Coatings on Titanium Substrates Using Plasma Assisted
Ion Implantation”, 15th Latin American Workshop on Plasma Physics
(January 27-31, 2014, 3.
H. Bhuyan, S.
Mändl, B. Bora, M. Favre, E. Wyndham,
J.R. Maze, M. Walczak, and D. Manova,
“Surface Modification by nitrogen
Plasma Immersion ion implantation into new Steel 460Li-21Cr in a capacitively coupled radio frequency discharge, Appl. Surf. Sci. 316, 72–77 (2014). 4.
S. Hevia, P. Homm, F. Guzmán,
H. M. Ruiz, G. Muñoz, L. S. Caballero, M.
Favre and M. Flores,
“Pulsed laser deposition of
carbon nanodot arrays using porous alumina
membranes as a mask”, Surf. Coatings Technol. 253, 161 (2014). 5. F. Guzmán, M. Ruiz, E. Valderrama, M. Favre, H. Bhuyan, E. Wynham, and H. Chuaqui, “Spectroscopic Characterization Of RF Hydrocarbon Plasmas For DLC Coatings”, 15th International Congress on Plasma Physics (ICPP) & 13th Latin American Workshop on Plasma Physics (August 8-13, 2010, Santiago, Chile), J. Physics: Conf. Series 511, 012017 (2014). 6.
F. Guzmán,
M. Favre, H. M. Ruiz, S. Hevia, L. S. Caballero, E. S. Wyndham,
H. Bhuyan, M. Flores and S. Mändl,
“Pulsed laser deposition of thin carbon films in a neutral gas background”, J. Phys. D: Appl. Phys. 46, 215202 (2013). 7.
N. Aomoa,
H. Bhuyan, A. L. Cabrera, M. Favre,
D. Diaz-Droguett, S. Rojas, D. N. Srivastava and M. Kakati, “Rapid synthesis of carbon nanoparticles with an optimized combination of specific
surface area and crystallinity by a plasma assisted
single-step, continuous process”,
J. Phys. D: Appl. Phys. 46, 165501 (2013). 8.
B. Bora, C. S. Wong, H.
Bhuyan, Y.
S. Lee, S. L. Yap and M.
Favre, “Understanding the
mechanism of nanoparticle formation in wire
explosion process”, J Quant. Spectrosc.
Radiat. Transfer 117, 1 (2013) 9.
C. S. Wong, B. Bora, S. L. Yap, Y. S. Lee, H. Bhuyan and M. Favre, “Effect of ambient gas species on the formation of Cu nanoparticles in wire explosion process”, Current Appl. Phys.12, 1345
(2012). 10. B. Bora, C. S. Wong,
H. Bhuyan, Y. S. Lee, S. L. Yap and M.
Favre, “Impact of binary gas on nanoparticle
formation in wire explosion process: An understanding via arc plasma
formation“, Mat. Lett.
81, 45 (2012) 11. B. Bora, H. Bhuyan, M. Favre, E. Wyndham and H. Chuaqui, “Investigation
on plasma parameters and step ionization from discharge characteristics of an
atmospheric pressure Ar microplasma jet“, Phys.
Plasmas 19, 064503 (2012). 12.
B. Bora, H. Bhuyan,
M.
Favre, E. Wyndham, H. Chuaqui, “Diagnostic of capacitively coupled radio frequency plasma by
homogeneous discharge model”, Phys. Lett. A 376, 1356 (2012). 13.
Y. S. Lee, B. Bora, S. L. Yap, C. S. Wong, H. Bhuyan and M. Favre, “Investigation on effect of ambient pressure in
wire explosion process for synthesis of copper nanoparticles
by optical emission spectroscopy”, Powder
Technology 222, 95 (2012). 14.
B. Bora, H. Bhuyan, M.
Favre, E. Wyndham, and H. Chuaqui,
“Theoretical approach for plasma series resonance effect in geometrically
symmetric dual radio frequency plasma”, Appl.
Phys. Lett. 100, 094103 (2012) 15.
E. Valderrama, M. Favre, H. Bhuyan, H. M. Ruiz, E. Wyndham, J. Valenzuela and H. Chuaqui, “Sub-Micron Size Carbon Structures Synthesized
Using Plasma Enhanced CVD, Without External Heating and No Catalyzer Action”, Surf.
Coatings Technol. 204, 2940–2943
(2010). 16.
H. Bhuyan, M. Favre, A. Henríquez, G. Vogel, E. Valderrama,
E. Wyndham and H. Chuaqui, “Production of
Sub-micron size Carbon Composites by High Energy Carbon Ion Beams Irradiation
of Solid Targets”, Surf. Coatings Technol.
204, 2950–2953 (2010). 17.
J. I. Avila, R. J. Matelon, R. Trabol, M. Favre, D. Lederman, U. G.
Volkmann and A. L. Cabrera, “"Optical Properties of Pd Thin Films
Exposed to Hydrogen Studied by Transmittance and Reflectance
spectroscopy", J. Appl. Phys. 107,
023504 (5pp) (2010). 18.
H. Bhuyan, M Favre, E Valderrama, A Henriquez, G
Vogel, H Chuaqui, E Wyndham, A. Cabrera, E.
Ramos-Moore P A Núñez, H Kelly, D Grondona and S Goyanes,
“High energy ion beam irradiation on titanium substrate in a pulsed plasma
device operating with methane”, J.
Phys. D: Appl. Phys. 42, 205207 (8pp) (2009). 19.
H. Bhuyan, M. Favre, E. Valderrama, G. Avaria, E.
Wyndham, H. Chuaqui, J. Baier,
H. Kelly, D. Grondona and A. Marquez, “Formation of
sub-micron size carbon structures by plasma jets emitted from a pulsed
capillary discharge“, Appl. Surf.
Science 255, 3558–3562 (2009).
20.
H. Bhuyan, M. Favre, E. Valderrama, G. Avaria, H. Chuaqui, I. Mitchell, and E. Wyndham, “Formation of
hexagonal silicon carbide by high energy ion beam irradiation on Si (100)
substrate”, J. Phys. D.: Appl. Phys.
40, 127–131 (2007). 21. H. Bhuyan, M. Favre, E. Valderrama, G. Avaria, F. Guzmán, H. Chuaqui, I. Mitchell, E. Wyndham, R. Saavedra and M. Paulraj " Effect of high energy ion irradiation on silicon substrate in a pulsed plasma device", Appl. Surf. Science 254, 197-200 (2007). |