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Α)
ΔΗΜΟΣΙΕΥΣΕΙΣ ΣΕ ΔΙΕΘΝΗ ΠΕΡΙΟΔΙΚΑ ΜΕ ΚΡΙΤΕΣ.
[1]
Back scattering and
X-ray induced correction factors for AES of thin
overlayers: Influence on lateral
Resolution.
E. Valamontes, A. G. Nassiopoulos, N. Glezos.
Surface and Interface Analysis, Vol. 16, 203, 1990.
[2]
Monte Carlo
calculations of the X-ray induced enhancement signal in
EPMA and AES of
stratified materials.
A. G.
Nassiopoulos, E. Valamontes
Surface and Interface Analysis, Vol. 15, 405, 1990.
[3]
Monte-Carlo calculations of the spatial resolution in X-ray
Microanalysis of
thin overlayers in the energy range 20-100keV.
A. G.
Nassiopoulos, E. Valamontes.
Microbeam Analysis, Vol. 25, 161, 1990.
[4]
Film
thickness distribution and thickness measurements of buried layers
using the Electron Probe Microanalysis.
A. G.
Nassiopoulos, E. Valamontes
Microscopy of Semiconducting Materials.
Inst.
Phys. Conf. Ser. No.93, Vol. 2, Chap.4, 157, 198
[5]
Point-to-Point Resolution in X-ray Microanalysis of thin coatings in
the
energy range 20-100keV.
A. G.
Nassiopoulos, E. Valamontes.
Microscopy of Semiconducting Materials,Inst. Phys. Conf. Ser. No
117, Vol. 2, 75, 1991.
[6]
Monte-Carlo
simulations of the point-to-point resolution in scanning Auger
microscopy
and X-ray Microanalysis of thin overlayers.
E.
Valamontes, A. G. Nassiopoulos, N. Glezos
Surface and Interface Analysis, Vol. 19, 419, 1992.
[7]
The
turbomolecular Pump in Molecular State.
A. G.
Antoniou, S. E. Valamontes, C. N. Panos, E. S. Valamontes.
Vacuum,
Vol. 46, No 7, 709, 1995.
[8]
Electron Probe X-ray Microanalysis of coatings.
E.
Valamontes, A. G. Nassiopoulos.
Mikrochemica Acta,
Vol. 13, 605, 1996.
[9]
Comparison of
back-foil Scanning X-ray Microfluorescence and Electron
Probe X-ray
Microanalysis for the elemental characterisation of thin
coatings.
E. Valamontes, A. G. Nassiopoulos.
Mikrochemica Acta, Vol. 13, 597, 1996.
[10]
Application of the Boltzmann transport equation in the thickness
determination of thin films.
G. Kaltsas, N. Glezos, E. Valamontes and A. G. Nassiopoulos.
Mikrochemica Acta, Vol. 13, 349, 1996.
[11]
The helicoid
multi-groove molecular and the turbomolecular vacuum pumps in
Molecular State under the scope of statistical behaviour of
molecules.
E. S.
Valamontes, C. N. Panos, A. G. Antoniou, S. E. Valamontes.
Vacuum, Vol. 47, No 11, 1361, 1996.
[12]
Tungsten oxide thin films chemically vapor deposited at low pressure
by W(CO)6 pyrolysis.
D. Davazoglou, A.
Moutsakis, V. Valamontes, V. Psycharis, D. Tsamakis.
J. Electrochem.
Soc., Vol. 144, No 2, 595, 1997.
[13]
Microanalysis of Coatings.
E. Valamontes.
Chem. Chronik., Vol. 26, No 1, 19, 1997.
[14]
Comparison of SXRF and EPMA for the elemental characterisation
of thin
coatings.
E.
Valamontes.
Chem.
Chronik., Vol. 26, No 1, 29, 1997.
[15]
Optical properties
of undoped, phosphorus doped and oxidised LPCVD polycrystalline
silicon films obtained by transmission and FTIR measurements.
D.Davazoglou, D. Kouvatsos, E. Valamontes
Electrochem. Soc. P.,
Vol. 97-25, 796,
1997.
[16]
WO3
LPCVD thin films for integrated gas sensor applications.
D.
Davazoglou, A. Moustakis, K. Georgouleas, E. Valamontes, D. Tsamakis
Electrochem. Soc. P.,
Vol. 97-25, 968,
1997.
[17]
Electron beam lithography on multilayer substrates: experimental and
theoretical study.
I. Raptis, G.
Meneghini, A. Rosenbusch, N. Glezos, R. Palumbo, M. Ardito,L. Scopa,
G. Patsis, E. Valamontes, P. Argitis
SPIE
Microlithography Vol. 3331, 431-441, (1998).
[18]
Size selection by cluster deflection in an electric field.
A. C. Xenoulis, P.
Tsouris, G. Doukelis, N. Boukos, E. Valamontes,Y. Chen. T.
Tsakalakos.
Nanostructured Materials, Vol. 8, No 7, 771, (1997).
[19]
Thickness determination of thin films based on X-ray signal decay
law.
G. Kaltsas, N.
Glezos, E. Valamontes, A. G. Nassiopoulos.
Surf. Interf.
Analysis, 26, 876-884 (1998).
[20]
The helicoid
multi groove frictional pump as a direct compressor in the
atmosphere
under re-examination of the coefficient of the internal viscosity.
S. E.
Valamontes, C. N. Panos and E. S. Valamontes.
Vacuum, Vol 53, 421, (1999).
[21]
Simulation of
roughness in chemically amplified resists using percolation theory.
G.
Patsis, N. Glezos, I. Raptis and E. Valamontes.
J. Vac. Sci. Technol. B 17 (6), 3367, (1999).
[22]
Electron beam
lithography simulation for high resolution and high-density
patterns.
I. Raptis, N.
Glezos, E. Valamontes, E. Zervas, P. Argitis.
Vacuum 62,
263-271, (2001).
[23]
Surface and
line-edge roughness in solution and plasma developed negative tone
resists: Experiment and simulation.
G. Patsis, A.
Tserepi, I.Raptis, N. Glezos, E. Gogolides and
E.
Valamontes.
J. Vac. Scien. &
Technol. B 18 (6), 3292, (2000).
[24]
Surface and
line-edge roughness in plasma developed resists.
A. Tserepi,
E. Valamontes,
E. Tegou, I.Raptis and E. Gogolides.
Microelectronic
Engineering, Vol. 57-58, 547-554, 2001.
[25]
Influence of texture on the absorption threshold of LPCVD silicon
films.
D. Davazoglou, D.
N. Kouvatsos and E. Valamontes.
J. de Physique IV,
Vol. 11, Pr3-1029, (2001).
[26]
Characterization and simulation of surface and line-edge roughness
in photoresists.
V. Costantoudis,
E. Gogolides, G. Patsis, A. Tserepi,
E.
Valamontes.
J. Vac. Scien. &
Technol. B, 19 (6), 2694, (2001).
[27]
Roughness
characterization in positive and negative resists.
V. Costantoudis,
E. Gogolides, A. Tserepi, C. D. Diacoumakos,E.
S. Valamontes.
Microelectronic
Engineering, Vol. 61-62, 793-801, (2002).
[28]
Surface
modification of Si-containing polymers during etching for bilayer
lithography.
D. Eon, L. de Poucques, M. Peignon, C. Cardinaud, G. Turban,
A. Tserepi, G. Cordoyiannis,
E. Valamontes,
I.Raptis and E. Gogolides.
Microelectronic
Engineering, Vol. 61-62, 901-906, (2002).
[29]
Etching
behaviour of Si-containing polymers as resist materials for bilayer
lithography:
The case of poly-dimethyl siloxane.
A.
Tserepi, G. Cordoyiannis, G. Patsis, V. Costantoudis, E. Gogolides,
E.
Valamontes,
D. Eon, M. Peignon, C. Cardinaud and G. Turban.
J. Vac. Sci. Techol. B 21(1), 174 -182 (2003).
[30]
Surface
roughness induced by plasma etching of Si-containing polymers.
A. Tserepi, E. Gogolides, V. Constantoudis, G. Cordoyiannis,
I. Raptis and E. S. Valamontes
J. Adhesion Scien. &
Technol., 17(8),
1083-1091 (2003).
[31]
Fractal
Roughness Of Polymers after Lithographic Processing.
Vassilios Constantoudis, Evangelos Gogolides,
Vassilios Sarris,C. Diakoumakos, George Patsis, Angeliki Tserepi,
Evangelos S. Valamontes
Japanese Journal of
Applied Physics Letters, PT. 2, Vol. 44, No. 5A,
L186 - L189, (2005).
[32]
Comparison of
Back-Foil
SXRF and EPMA
for the
Elemental
Characterization of Thin Coatings.
E. S. Valamontes
and
J. C. Statharas
Vacuum 77,
371-376, (2005).
[33]
Proton beam
micromachining on strippable aqueous base developable negative
resist.
I.
Rajta, E. Baradács, M. Chatzichristidi, E. S. Valamontes, I. Uzonyi,
I. Raptis
Nucl.
Instr. and Meth. B 231/1-4, 423,
(2005).
[34]
Dissolution properties of ultrathin photoresist films
with multiwavelength
interferometry.
A. Kokkinis, E. S. Valamontes, I. Raptis
Journal
of Physics, CS10, 401, (2005).
[35]
Proton beam micromachining on strippable aqueous base developable
negative
resist.
I.
Rajta, E. Baradács, M. Chatzichristidi, E. S. Valamontes, I. Uzonyi,
I. Raptis
Hungarian Academy of Sciences
Ann. Rep.,
7.1, 15, (2004).
[36]
Interstitial injection in silicon after high dose, low energy
Arsenic implantation and annealing.
C. Tsamis, D. Skarlatos, G. BenAssayag, A. Claverie,W. Lerch
and
V.Valamontes
Applied Physics Letters 87, 201903 (2005).
[37]
Tailoring the
surface topography and wetting properties of oxygen-plasma treated
poly-dimethyl siloxane.
A. Tserepi, E. Gogolides, V. Constantoudis, K. Tsougeni, N.
Vourdas,
E. S. Valamontes
Journal of Applied Physics 98, 113502, (2005).
[38]
Injection of point
defects during annealing of low energy As implanted
silicon.
C.
Tsamis, D. Skarlatos, V. Valamontes, D. Tsoukalas, G. BenAssayag,
A. Claverie and W.
Lerch
Materials Science and Engineering 124, 261-265,(2005).
[39]
Vapor sorption in thin supported polymer films
studied by white light interferometry.
Kyriaki Manoli,
Dimitris Goustouridis, Stellios Chatzandroulis,
Ioannis Raptis, Evangelos
S.Valamontes, Merope Sanopoulou.
Polymer 47, 6117-6122,
(2006).
[40]
Scanning X-ray
micro.uorescence in a SEM for the analysis of very thin overlayers.
E. S. Valamontes, J. C. Statharas, C. Nomicos.
Nucl. Instr. and Meth. B 260 (2007) 628-632.
[41]
Proton Beam Micromachined
Buried Microchannels in Negative Tone Resist Materials.
I. Rajta, M. Chatzichristidi, E. Baradács, C. Cserháti, I. Raptis,
K. Manoli, E. S. Valamontes
Nucl. Instr. and Meth. B
260 (2007) 414-418.
[42]
High aspect ratio micro/nano machining with proton beam writing on
aqueous developable – easily stripped negative chemically amplified resists.
M. Chatzichristidi, E. Valamontes, N. Tsikrikas, P. Argitis, I. Raptis,
J.A.van Kan, F. Zhang, F. Watt
Microelectronic Engineering 85 (5-6) (2008) pp. 945-948.
[43]
Molecular weight and processing effects on the dissolution properties of thin
poly(methyl methacrylate) films.
A. Kokkinis, E. S. Valamontes, D. Goustouridis, Th. Ganetsos,
K. Beltsios and I. Raptis
Microelectronic Engineering 85 (1) (2008) pp. 93-99.
[44]
Aqueous base developable: easy stripping, high aspect ratio negative
photoresist for optical and proton beam lithography.
M. Chatzichristidi, I. Rajta, Th. Speliotis, E. Valamontes,
D. Goustouridis, P. Argitis, I. Raptis
Microsyst Technol 14 (9-11) (2008) pp. 1423-1428.
[45]
Realization and simulation of high aspect ratio micro/nano structures
by proton beam writing.
E. Valamontes, M. Chatzichristidi, N. Tsikrikas, D. Goustouridis,
I. Raptis, J.A. van Kan, F. Watt
Japanese Journal of Applied Physics 47 (11) (2008) pp. 8600-8605.
[46]
Vapor- Induced Swelling Of Supported Methacrylic And Siloxane Polymer
Films: Determination Of Interaction Parameters
Kyriaki Manoli, Dimitris Goustouridis, Ioannis Raptis,
Evangelos Valamontes, Merope Sanopoulou
Journal of Applied Polymer Science (submitted)
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