Free-standing and overgrown InGaAs/GaAs nanotubes, nanohelices and their arrays VY Prinz, VA Seleznev, AK Gutakovsky, AV Chehovskiy, ...
Physica E: Low-dimensional Systems and Nanostructures 6 (1-4), 828-831, 2000
787 2000 Fabrication of conducting GeSi/Si micro-and nanotubes and helical microcoils SV Golod, VY Prinz, VI Mashanov, AK Gutakovsky
Semiconductor Science and Technology 16 (3), 181, 2001
248 2001 VV preobrazhenskii, and TA Gavrilova,“Freestanding and overgrown InGaAs/GaAs nanotubes, nanohelics and their aarrays,” VY Prinz, VA Seleznev, AK Gutakovsky
Physics E 6, 828-831, 2000
240 2000 A new technique for fabricating three-dimensional micro-and nanostructures of various shapes VY Prinz, D Grützmacher, A Beyer, C David, B Ketterer, E Deckardt
Nanotechnology 12 (4), 399, 2001
177 2001 A new concept in fabricating building blocks for nanoelectronic and nanomechanic devices VY Prinz
Microelectronic engineering 69 (2-4), 466-475, 2003
167 2003 Freestanding SiGe/Si/Cr and microtubes SV Golod, VY Prinz, P Wägli, L Zhang, O Kirfel, E Deckhardt, F Glaus, ...
Applied physics letters 84 (17), 3391-3393, 2004
106 2004 Semiconductor micro-and nanoneedles for microinjections and ink-jet printing AV Prinz, VY Prinz, VA Seleznev
Microelectronic engineering 67, 782-788, 2003
95 2003 Directional rolling of strained heterofilms AB Vorob'ev, VY Prinz
Semiconductor science and technology 17 (6), 614, 2002
95 2002 Nanoscale engineering using controllable formation of ultra-thin cracks in heterostructures VY Prinz, VA Seleznev, VA Samoylov, AK Gutakovsky
Microelectronic Engineering 30 (1-4), 439-442, 1996
87 1996 Influence of a Strong Electric Field on the Carrier Capture by Nonradiative Deep‐Level Centers in GaAs VY Prinz, SN Rechkunov
Physica status solidi (b) 118 (1), 159-166, 1983
80 1983 A technique for fabricating InGaAs/GaAs nanotubes of precisely controlled lengths VY Prinz, AV Chekhovskiy, VV Preobrazhenskii, BR Semyagin, ...
Nanotechnology 13 (2), 231, 2002
77 2002 Giant asymmetry of the longitudinal magnetoresistance in high-mobility two-dimensional electron gas on a cylindrical surface AB Vorob’ev, KJ Friedland, H Kostial, R Hey, U Jahn, E Wiebicke, ...
Physical Review B 75 (20), 205309, 2007
76 2007 A technique for fabricating Au/Ti micro-and nanotubes YV Nastaushev, VY Prinz, SN Svitasheva
Nanotechnology 16 (6), 908, 2005
74 2005 Fluorinated graphene dielectric films obtained from functionalized graphene suspension: preparation and properties NA Nebogatikova, IV Antonova, VY Prinz, II Kurkina, VI Vdovin, ...
Physical Chemistry Chemical Physics 17 (20), 13257-13266, 2015
65 2015 Research highlights from the Novosibirsk 400 W average power THz FEL GN Kulipanov, NG Gavrilov, BA Knyazev, EI Kolobanov, VV Kotenkov, ...
Terahertz Sci. Technol 1 (2), 107-125, 2008
65 2008 Application of semiconductor micro-and nanotubes in biology AV Prinz, VY Prinz
Surface Science 532, 911-915, 2003
62 2003 Functionalization of graphene and few-layer graphene with aqueous solution of hydrofluoric acid NA Nebogatikova, IV Antonova, VA Volodin, VY Prinz
Physica E: Low-dimensional Systems and Nanostructures 52, 106-111, 2013
56 2013 Precise semiconductor nanotubes and nanocorrugated quantum systems VY Prinz
Physica E: Low-dimensional Systems and Nanostructures 24 (1-2), 54-62, 2004
55 2004 Free-standing Si/SiGe micro-and nano-objects L Zhang, SV Golod, E Deckardt, V Prinz, D Grützmacher
Physica E: Low-dimensional Systems and Nanostructures 23 (3-4), 280-284, 2004
53 2004 Single-turn GaAs/InAs nanotubes fabricated using the supercritical CO2 drying technique V Seleznev, H Yamaguchi, Y Hirayama, V Prinz
Japanese journal of applied physics 42 (7A), L791, 2003
50 2003