* * * * *
Since August 2007 Fabio Cicoira is recipient of a Marie Curie International
Outgoing Fellowship in collaboration with the Department of Material Science
and
Engineering at Cornell University and the CNR Institute of Photonics and
Nanotechnology in Trento.
During his stay at NFL he worked on self assembly of quinquethiophene
and rubrene on copper surfaces and on light emitting field-effect transistors
(For details see publications in group
page).
LIST OF PUBLICATIONS
[28] J. A. Miwa, F. Cicoira,
J. Lipton-Duffin, D. F. Perepichka, C. Santato,
F. Rosei, Self Assembly of Rubrene on Cu(111), Nanotechnology,
in press.
[27] J. A. Miwa, F. Cicoira, S. Bedwani,
J. Lipton-Duffin, D. F. Perepichka, A. Rochefort, F.
Rosei, Self Assembly of Rubrene on Copper Surfaces, Journal of
Physical Chemistry C, 112, 10214, 2008.
[26] J. L. Brusso, O. D. Hirst, A. Dadvand, S. Ganesan,
F. Cicoira, C. M. Robertson, R. T. Oakley, F.
Rosei, D. F. Perepichka, Two-Dimensional Structural Motif in
Thienoacene Semiconductors: Synthesis, Structure and Properties of Tetrathienoanthracene
Isomers, Chemistry of Materials 20, 2484, 2008.
[25] F. Cicoira, C. Santato, A.
Dadvand, C. Harnagea, A. Pignolet, P. Bellutti, Z. Xiang, F.
Rosei, H. Meng, D. F. Perepichka, Environmentally stable light
emitting field effect transistors based on a 2-(4-pentylstyryl)tetracene,
Journal of Material Chemistry 18, 158, 2008.
[24] F. Cicoira, C. Santato,
A. Dadvand, C. Harnagea, A. Pignolet, P. Bellutti, Z.
Xiang, F. Rosei, H. Meng, D. F. Perepichka, Environmentally
stable light emitting field effect transistors based on a 2-(4-pentylstyryl)tetracene,
Journal of Material Chemistry, in press, 2008 (see group page).
[23] F. Cicoira, C. Santato, F.
Rosei, Two-dimensional nanotemplates as surface cues for the
controlled assembly of organic molecules, Topics in Current Chemistry,
accepted (see group page).
[22] F. Cicoira, J. A. Miwa, D. F. Perepichka,
F. Rosei Molecular assembly of rubrene on a metal/metal
nanotemplate, Journal of Physical Chemistry A 111, 12674, 2007 (see group
page).
[21] F. Cicoira, C. Santato, Advances
and perspective in light emitting transistors, Advanced Functional Materials
17, 3421.2007. (PDF)
[20] F. Cicoira, J. A. Miwa, M. Melucci,
G. Barbarella, F. Rosei, Ordered assembly of a-quinquethiophene
on a copper oxide nanotemplate; Small 2, 1366, 2006 (see group page).
[19] S. Milita, C. Santato, F. Cicoira,
Structural investigation of thin tetracene films on a flexible substrate;
Applied Surface Science, in press, 2006. (PDF)
[18] C. Santato, F. Cicoira, P. Cosseddu,
A. Bonfiglio, P. Bellutti, M. Muccini, R. Zamboni, F. Rosei, A. Mantoux,
P. Doppelt, Organic Light-Emitting Transistors using concentric source/drain
electrodes on a molecular adhesion layer; Applied Physics Letters 88,
163511, 2006.
[17] F. Cicoira, F. Rosei; Playing Tetris
at the Nanoscale, Surface Science 600,1, 2006.
[16] F. Cicoira, C. Santato, M. Melucci,
L. Favaretto, M. Gazzano, M. Muccini, G. Barbarella; Organic light-emitting
transistors based on solution cast and vacuum sublimed films of a rigid
core thiophene oligomer; Advanced Materials 18, 169, 2006. (PDF)
[15] S. Milita, M. Servidori, F. Cicoira, C.
Santato, A. Pifferi; Synchrotron X-ray investigation of tetracene
thin films grown at different deposition fluxes; Nuclear Instruments and
Methods B 246, 101, 2006. (PDF)
[14] C. Santato, I. Manunza, A. Bonfiglio, F.
Cicoira, P. Cosseddu, R. Zamboni, M. Muccini; Tetracene light-emitting
transistor on flexible substrates; Applied Physics Letters 86, 141106,
2005. (PDF)
[13] F. Cicoira, C. Santato, F. Dinelli,
M. Murgia, M.A. Loi, F. Biscarini, R, Zamboni, P. Heremans, M. Muccini;
Correlation between morphology and field-effect transistor mobility in
tetracene thin films; Advanced Functional Materials 15, 375, 2005. (PDF)
[12] F. Cicoira, P. Hoffmann, C.O.A. Olsson, N. Xanthopoulos,
H.J. Mathieu, P. Doppelt; Auger Electron Spectroscopy analysis of high
metal content micro-structures grown by electron beam induced deposition
Applied Surface Science 242, 107, 2005. (PDF)
[11] C. Santato, R. Capelli, M.A. Loi, M. Murgia, F.
Cicoira, V.A.L. Roy, P. Stallinga, R. Zamboni, M. Muccini; Tetracene
based Organic Light-Emitting transistors: optoelectronic properties and
electron injection mechanism; Synthetic Metals, 146, 329, 2004 (cover
issue). (PDF)
[10] A. Luisier, I. Utke, T. Bret, F. Cicoira, R. Hauert,
W. Rhee, P. Doppelt, P. Hoffmann; Comparative Study of Cu-Precursors for
3D Focused Electron Beam Induced Deposition; Journal of the Electrochemical
Society, 151, C590, 2004. (PDF)
[9] F. Cicoira, K. Leifer, P. Hoffmann, I. Utke, B. Dwir,
D. Laub. P. A. Buffat, E. Kapon. P. Doppelt; Electron Beam Induced Deposition
(EBID) of Rhodium from the precursor [RhCl(PF3)2]2: morphology, structure
and chemical composition; Journal of Crystal Growth 265, 619, 2004. (PDF)
[8] C. Benvenuti, P. Chiggiato, F. Cicoira, Y. L'Aminot,
V. Ruzinov; Vacuum properties of palladium thin film coating; Vacuum 73,
139, 2004. (PDF)
[7] P. Melpignano, S. Sinesi, G. Rotaris, M. Antonipieri, F. Cicoira,
M. A. Loi, M. Muccini, R. Zamboni, M. T. Gale, S. Westenhofer; Optical
coupling of flexible microstructured organic light sources for automotive
applications; Synthetic Metals 13, 913, 2003. (PDF)
[6] P. Seuret, F. Cicoira, T. Ohta, P. Hoffmann, J. Weber,
T. Wesolowski; An experimental and theoretical study of [RhCl(PF3)2]2
fragmentation; Physical Chemistry Chemical Physics 5, 268, 2003. (PDF)
[5] T. Ohta, F. Cicoira, P. Doppelt, L. Beitone, P. Hoffmann;
Static vapor pressure measurement of low volatile precursors for Molecular
Vapor Deposition below ambient temperature; Chemical Vapor Deposition
7, 33, 2001. (PDF)
[4] I. Utke, B. Dwir, K. Leifer, F. Cicoira, P. Doppelt,
P. Hoffmann, E. Kapon; Electron beam induced deposition of metallic tips
and wires for microelectronics applications; Microelectronic Engineering
53, 261, 2000 (8 citations). (PDF)
[3] C. Benvenuti, J.M. Cazeneuve, P. Chiggiato, F. Cicoira,
A. Escudeiro Santana, V. Johanek, V. Ruzinov, J. Fraxedas; A novel route
to extreme vacua: the non-evaporable getter thin film coatings; Vacuum,
53, 219,1999 (27 citations). (PDF)
[2] C. Benvenuti, P. Chiggiato, F. Cicoira, V. Ruzinov;
Decreasing surface outgassing by thin film getter coatings; Vacuum 50,
57-63,1998 (21 citations). (PDF)
[1] C. Benvenuti, P. Chiggiato, F. Cicoira, Y. L’Aminot;
Nonevaporable getter films for ultrahigh vacuum applications; Journal
of Vacuum Science and Technology A 16,148, 1998 (21 citations). (PDF)
Publications in conference proceedings
[5] P. Hoffman, I. Utke, F. Cicoira; Limits of 3-D nanostructures
fabricated by focused electron beam (FEB) induced deposition; P. Hoffman,
I. Utke, F. Cicoira; Proc. SPIE 5023, 4 (2002). (PDF)
[4] I. Utke, F. Cicoira, G. Jaenchen, P. Hoffmann, L.
Scandella, B. Dwir, E. Kapon, D. Laub, P.A. Buffat, N. Xanthopulos, H.J.
Mathieu; Focused electron beam induced deposition of high resolution magnetic
scanning probe tips; Proc. MRS Symp. 706, 307 (2002). (PDF)
[3] P. Hoffmann, I. Utke, G. Jaenchen, F. Cicoira, and
J. Rohner; Focused Electron Beam Deposition of one-, two-, and three-dimensional
nanostructures for biological applications, European Cells and Materials
Vol. 2. Suppl. 1, 91, (2001).
[2] P. Doppelt; R. Even, F. Marchi, V. Bouchiat, H. Dallaporta, S. Safarov,
D. Tonneau, P. Hoffmann, F. Cicoira, I. Utke, B. Dwir,
K. Leifer; Nanostructures by CVD assisted methods using mineral precursors
Proc. 197th Meeting of Electrochemical Soc.112 (2000).
[1] P. Hoffmann, I. Utke, F. Cicoira, B. Dwir, K. Leifer,
E. Kapon, P. Doppelt; Focused electron beam induced deposition of gold
and rhodium; Proc. MRS Symp. 624, 171 (2000). (PDF)
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