Diamond in nanotechnology - Fakulta elektrotechniky a informatiky ...
Diamond in nanotechnology - Fakulta elektrotechniky a informatiky ...
Diamond in nanotechnology - Fakulta elektrotechniky a informatiky ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
25<br />
Autoreferát dizertačnej práce<br />
[17] O. Babchenko, Z. Remes, T. Izak, B. Rezek, A. Kromka, "Deposition of<br />
nanocrystall<strong>in</strong>e diamond films on temperature sensitive substrates for <strong>in</strong>frared<br />
reflectance spectroscopy", Phys. Stat. Sol. b 248 (11), (2011), pp. 2736-2739<br />
[18] A. Kromka, O. Babchenko, T. Izak, S. Potocky, M. Davydova, N. Neykova, H. Kozak,<br />
Z. Remes, K. Hruska, B. Rezek, "Pulsed l<strong>in</strong>ear antenna microwave plasma - a step<br />
ahead <strong>in</strong> large area material depositions and surface functionalization", Conference<br />
Proceed<strong>in</strong>gs of 3rd International Conference – NANOCON, 21-23.9.2011, Brno,<br />
Czech Republic, ISBN 978-80-87294-23-9<br />
[19] J.R. Petherbridge, P.W. May, M.N.R. Ashfold, "Model<strong>in</strong>g of the gas-phase chemismy<br />
<strong>in</strong> C-H-O gas mixtures for diamond chemical vapor deposition", Journal of Applied<br />
Physics 89, (2001), pp. 5219-5223<br />
[20] Ch.F. Chen, S.H. Chen, H.W. Ko, S.E. Hsu, "Low temperature growth of diamond<br />
films by microwave plasma chemical vapor deposition us<strong>in</strong>g CH4+CO2 gas<br />
mixtures", Diam. Rel. Mat. 3 (4-6), (1994), pp. 443-447<br />
[21] J. Stiegler, T. Lang, M.N. Ferguson, Y. Kaenel, E. Blank, "Low temperature limits of<br />
diamond film growth by microwave plasma-assisted CVD", <strong>Diamond</strong> and Related<br />
Materials 5 (3-5), (1996), pp. 226-230<br />
[22] P. Achatz, J.A. Garrido, M. Stutzmann, O.A. Williams, D.M. Gruen, A. Kromka, D.<br />
Ste<strong>in</strong>muller,“Optical properties of nanocrystall<strong>in</strong>e diamond th<strong>in</strong> films,” Appl. Physics<br />
Letters 88, 2006, p. 101908<br />
[23] Z. Remes, R. Petersen, K. Haenen, M. Nesladek, M. Dolieslaeger, “Mechanism of<br />
photoconductivity <strong>in</strong> <strong>in</strong>tr<strong>in</strong>sic epitaxial CVD diamond studied by photocurrent<br />
spectroscopy and photocurrent decay measurements,” Diam. and Related Materials<br />
14, 2005, pp. 556-560<br />
[24] R.A. Street, “Hydrogenated amorphous silicon,” Cambridge Univ. press, (1991), pp.<br />
88-94<br />
[25] M. Varga, L. Ondic, K. Hruska, Z. Remes, A. Kromka, I. Pelant, M. Vesely,<br />
"Investigation of two-dimensional photonic crystal based on nanocrystall<strong>in</strong>e<br />
diamond", Progresívne materiály a vákuum (Progressive materials and vacuum), 8.-<br />
11.11.2012, Štrbské Pleso, Bratislava: Slovenská vákuová spoločnosť, 2012, ISBN<br />
978-80-971179-0-0, s. 94-99<br />
[26] M. Varga, M. Kotlar, V. Vretenar, T. Izak, V. Skakalova, A. Kromka, M. Vesely,<br />
"SWNT paper overgrown or <strong>in</strong>grown with diamond <strong>in</strong> various plasma systems",<br />
presented <strong>in</strong> E-MRS 2012 Fall meet<strong>in</strong>g, 17.-21.9.2012, Warsaw University of<br />
Technology, Warsaw, Poland
Change language