Publications
[1] C. Resch, V. Zhukov, A. Lugstein, H.F. Berger, A. Winkler and K.D. Rendulic, “Dynamics of hydrogen adsorption on promotor- and inhibitor-modified nickel surfaces”, Chemical Physics, 177(2), 421 (1993).
[2] A. Jentis, A. Lugstein, O. El Dusouqui, H. Vinek, M. Lercher, “Cobalt containing ZSM5 zeolites - Preparation, characterization and structure”, simulation, Stud. Surf. Sci. Catal., 100, 525 (1995).
[3] A. Lugstein, O. El Dusouqui, A. Jentys and H. Vinek, “Transition metal cations in zeolites, a catalyst for HDS reactions”, Stud. Surf. Sci. Catal., 98, 163 (1995).
[4] A. Jentis, A. Lugstein and H. Vinek, “Solid state ion exchange reactions of Co with zeolites”, Acta Physica Polonica A 91(5), 969 (1997).
[5] A. Lugstein, A. Jentys and H. Vinek, “Hydroconversion of n-heptane over Co/Ni containing HZSM5”, Appl. Catal. A, 152(1), 93 (1997).
[6] A. Lugstein, A. Jentys and H. Vinek, “n-Heptane cracking on H- and Ni containing zeolites”, J. Chem. Soc., Faraday Trans. 93(9), 1837 (1997).
[7] A. Jentys, A. Lugstein and H. Vinek, “Characterization of metallic species on Ni and Co containing ZSM5 catalysts - Reduction behavior and catalytic properties”, Zeolites, 18 (5-6), 391 (1997).
[8] A. Lugstein, A. Jentys and H. Vinek, “Hydroconversion of n-heptane over bifunctional HZSM5 zeolites; influence of the metal concentration and distribution on the activity and selectivity”, Appl. Catal. A, accepted (1997).
[9] A. Jentys, A. Lugstein and H. Vinek, “Co Containing Zeolites Prepared by Solid State Ion Exchange”, J. Chem. Soc., Faraday Trans., 93(22), 4091 (1997).
[10] A. Lugstein, A. Jentys and H. Vinek, “Hydroconversion of n-heptane over bifunctional HZSM5 zeolites; influence of the metal concentration and distribution on the activity and selectivity”, Appl. Catal. A., 166(1), 29 (1998).
[11] A. Lugstein, A. Jentys and H. Vinek, “Hydroisomerization and cracking of n-octane and C8 isomers on Ni-containing zeolites”, Appl. Catal. A 176, 119, (1999).
[12] A. Jentys, A. Lugstein, G. Kinger and H. Vinek, “Hydroconversion of heptane and octane over bifunctional zeolites, influence of strucutre and metal distribution on activity and selectivity”, Materials Research Soc., 2817, (1999).
[13] G. Kinger, A. Lugstein, R. Swagera, M. Ebel, A. Jentys, and H. Vinek, “Comparison of impregnation, liquid- and solid- state ion exchange procedures for the incorporation of nickel in HMFI, HMOR and HBEA. activity and selectivity in n-nonane hydroconversion. Micro- and Mesop. Materials Vol. 39, 307 (2000).
[14] A. Lugstein, H. Wanzenböck, E. Bertagnolli, “Focused Ion Beam Technology – A New Approach for the Sub 100nm Microfabrication Regime”, Proceedings of the Seminar “Current Developments of Microelectronics 175 (1999).
[15] L. Hvozdara, A. Lugstein, S. Gianordoli, W. Schrenk, G. Strasser, K. Unterrainer, E. Bertagnolli, and E. Gornik, “Self-aligned coupled cavity GaAs/AlGaAs midinfrared quantum-cascade laser”, Applied Physics Letters, Vol. 77, 1077 (2000).
[16] L. Hvozdara, A. Lugstein, N. Finger, S. Gianordoli, W. Schrenk, K. Unterrainer, E. Bertagnolli, G. Strasser, and E. Gornik, “Quantum cascade lasers with monolithic air-semiconductor Bragg reflectors”, Applied Physics Letters, Vol. 77, 1241 (2000).
[17] C. Kranz, G. Friedbacher, B. Mizaikoff, A. Lugstein, J. Smoliner, E. Bertagnolli, “Integrating an Ultramicroelectrode in an AFM Cantilever. Combined Power for Enhanced Information”, Anal. Chem., Vol. 73 (11), 2491-2500 (2000).
[18] A. Lugstein, H. Wanzenböck, E. Bertagnolli, “Focused Ion Beam Based Microfabrication Technique for a Novel Type of Scanning Electrochemical Microscopy Probes”, Proceedings of the Seminar at the Vienna University of Technology 133 (2001).
[19] C. Kranz, B. Mizaikoff, A. Lugstein, E. Bertagnolli, “Towards the Development of a Combined Microsensing-Imaging Tool”, ACS Symp. Book on Electrochemical Methods for Enviromental Analysis of Trace Element Biogeochemistry (Eds. Martial Taillefert and Tim Rozan) Library of Congress, ISBN 0-8412-3774-3, (2002).
[20] A. Lugstein, E. Bertagnolli, C. Kranz, A. Kueng, B. Mizaikoff, “Integrating Micro- and Nanoelectrodes into Atomic Force Microscopy Cantilevers using Focused Ion Beam Techniques”, Appl. Phys. Lett., 81, 349 (2002).
[21] A. Lugstein, E. Bertagnolli, C. Kranz, B. Mizaikoff, “Fabrication of a ring nanoelectrode in an AFM tip: novel approach towards simultaneous electrochemical and topographical imaging”, Surf. Interface Analysis 33, 146 (2002).
[22] A. Lugstein, E. Bertagnolli, C. Kranz, A. Kueng, B. Mizaikoff, “Integrating Micro- and Nanoelectrodes into Atomic Force Microscopy Cantilevers using Focused Ion Beam Techniques”, Virtual Journal of Nanoscale Science & Technology, 6, Issue 2 (2002).
[23] A. Lugstein, B. Basnar, G. Hobler, and E. Bertagnolli, “A novel approach for current density profile extraction of focused ion beams based on AFM contour profiling of nanodots”, Journal of Applied Physics 92, 4037 (2002).
[24] A. Lugstein, B. Basnar, G. Hobler, and E. Bertagnolli, Current density profile extraction of focused ion beams based on atomic force microscopy contour profiling of nanodots”, Virtual Journal of Nanoscale Science & Technology, 6, Issue 14 (2002).
[25] A. Lugstein, B. Basnar, and E. Bertagnolli, “Study of Focused Ion Beam Response of GaAs in the Nanoscale Regime”, J. Vac. Sci. and Technol. B 10(6), 2238 (2002).
[26] A. Lugstein, B. Basnar, J. Smoliner, and E. Bertagnolli, “FIB processing of Si in the nanoscale regime”, Appl. Physics A. 76, 545 (2003).
[27] A. Lugstein, W. Brezna, and E. Bertagnolli, “Method to characterize the 3D- distribution of focused ion beam induced damage in Si after 50 keV Ga+ irradiation”, J. Vac. Sci. and Technol. A21 (5), 1644 (2003).
[28] A. Lugstein, W. Brezna, M. Stockinger, B. Goebel, L. Palmetshofer, E. Bertagnolli, “Nonuniform Channel MOS Device”, Appl. Phys. A 76(7), 1035 (2003).
[29] A. Kueng, C. Kranz, B. Mizaikoff, A. Lugstein, E. Bertagnolli, “Combined Scanning Electrochemical Atomic Force Microscopy for Tapping Mode Imaging”, Appl. Phys. Lett. 82 1592 (2003).
[30] W. Brezna, H. Wanzenböck, A. Lugstein, E. Bertagnolli, E. Gornik, J. Smoliner, “ Focused ion beam induced damage in Si studied by scanning capacitance microscopy”, Semicond. Sci. Technol. 18, 195 (2003).
[31] S. Anders, W. Schrenk, A. Lugstein, G. Strasser, “Room temperature lasing of electrically pumped quantum cascade micro-cylinders”, Physica E 17, 626 (2003).
[32] B. Basnar, A. Lugstein, H. Wanzenboeck, H. Langfischer, E. Bertagnolli, E. Gornik, “Focused ion beam induced surface amorphization and sputter processes” J. Vac. Sci. and Technol. 21(3), 927 (2003).
[33] A. Kueng, C. Kranz, A. Lugstein, E. Bertagnolli, B. Mizaikoff, “Integrated atomic force scanning electrochemical microscopy in tapping mode: Simultaneous topographical and electrochemical imaging of enzyme activity“, Angew. Chem. Int. Ed. 42, 3192 (2003).
[34] A. Kueng, C. Kranz, A. Lugstein, E. Bertagnolli, B. Mizaikoff, “Simultane topographische und elektrochemische Abbildung von Enzymaktivität in integrierten AFM-SECM-Rasternahfeldsonden im AFM-Tapping-Modus”, Angew. Chem. 115, 3311 (2003).
[35] S. Harasek, A. Lugstein, H.D. Wanzenboeck, E. Bertagnolli, “Slow Trap Response of Zirconium Dioxide Thin Film on Si”, Appl. Phys. Lett. 83, 1400 (2003).
[36] W. Brezna, H. Wanzenböck, A. Lugstein, E. Bertagnolli, E. Gornik, J. Smoliner, “Focussed ion beam induced damage in Si investigated with scanning capacitance microscopy”, Physica E 19, 178, (2003)
[37] W. Brezna, M. Schramboeck, A. Lugstein, S. Harasek, H. Enichlmair, E. Bertagnolli, E. Gornik, and J. Smoliner, “Quantitative scanning capacitance spectroscopy”, Appl. Phys. Lett 83, 4253 (2003)
[38] A. Lugstein, B. Basnar, and E. Bertagnolli, „ Size and site controlled Ga nano dots on GaAs
seeded by focused ion beams”, J. Vac. Sci. Technol. B 22, 888 (2004).
[39] A. Lugstein, B. Basnar, and E. Bertagnolli, „ Size and site controlled Ga nano dots on GaAs
seeded by focused ion beams”, Virtual Journal of Nanoscale Science & Technology, 9, Issue 16 (2004).
[40] A. Lugstein, B. Basnar, and E. Bertagnolli, “Study of the chemical and morphological evolution of the GaAs surface after high fluence focused ion beam exposure”, Nucl. Instr. and Meth. B, 217, 402 (2004)
[41] A. Lugstein, M. Weil, B. Basnar, C. Tomastik, E. Bertagnolli, „A novel fabrication technique for crystallite growth on a (100) InAs surface utilizing focused ion beams”, Nucl. Instr. and Meth. 222/1-2 91 (2004)
[42] C. Kranz, A Kueng, A. Lugstein, E. Bertagnolli and B. Mizaikoff, “Mapping of enzyme activity by detection of enzymatic products during AFM imaging with integrated SECM–AFM probes”, Ultramicroscopy, Volume 100, Issues 3-4, 127, 2004.
[43] A. Lugstein, B. Basnar, and E. Bertagnolli, “Metallic nano dots realized by a subtractive self organization process”, Superlattices and Microstructures 36, 107 (2004).
[44] B. Basnar, A. Lugstein, E. Bertagnolli, E. Gornik, "Spectroscopic ellipsometry study of focused ion beam induced GaAs surface modification"; Thin Solid Films, 1, 540 (2004).
[45] W. Brezna, S. Harasek, A. Lugstein, T. Leitner, H. Hoffmann, E. Bertagnolli, J. Smoliner, “Mapping of local oxide properties by quantitative scanning capacitance spectroscopy“,J. of Appl. Phys. 97, 1 (2005)
[46] A. Kueng, C. Kranz, A. Lugstein, E. Bertagnolli, B. Mizaikoff, “AFM-tip-integrated amperometric microbiosensors: High-resolution imaging of membrane transport", Angew. Chemie-Int. Ed., 44 (22), 3419 (2005).
[47] O. Sklyar, A. Kueng, C. Kranz, B. Mizaikoff, A. Lugstein, E. Bertagnolli, G. Wittstock, "Numerical simulation of scanning electrochemical Microscopy experiments with frame-shaped integrated atomic force microscopy-SECM probes using the boundary element method”, Anal. Chem., 77 (3) 764 (2005).
[48] Angelika Kueng, Christine Kranz, Alois Lugstein, Emmerich Bertagnolli, Boris Mizaikoff, “AFM-Tip-Integrated Amperometric Microbiosensors: High-Resolution Imaging of Membrane Transport”
Angewandte Chemie, 117 (22), 3485, (2005).
[49] A. Kueng, C. Kranz, A. Lugstein, E. Bertagnolli, B. Mizaikoff, “Nanoelectrodes integrated in atomic force microscopy cantilevers for imaging of in situ enzyme activity” Methods Mol Biol. 300, 403, (2005).
[50] A. Lugstein, Johannes Bernardi, Christian Tomastik, and E. Bertagnolli, “Synthesis of NWs in room temperature ambient: A focused ion beam approach”, Appl. Phys. Lett. 88, 163114 (2006).
[51] A. Lugstein, B. Basnar, W. Brezna, M. Weil, S. Golka, E. Bertagnolli, "Advanced nanopattern formation by a subtrative self-organization process with focused ion beams", Nuclear Instruments & Methods B, 242, 93 (2006).
[52] C. Schoendorfer, A. Lugstein and E. Bertagnolli, “Focused ion beam induced nanodot and nanofiber growth”, Microelectronic Engineering, 83, 1491 (2006).
[53] M. Schramböck, A. M. Andrews, T. Roch, W. Schrenk, A. Lugstein, G. Strasser, "Nano-patterning and growth of self-assembled quantum dots", Microelectronics Journal, 37, 1532 (2006).
[54] A. Lugstein, M. Steinmair, Y. J. Hyun, E. Bertagnolli, and P. Pongratz, “ Ga/Au alloy catalyst for single crystal Si-NW epitaxy”, Appl. Phys. Lett. 90, 023109 (2007).
[55] A. Lugstein, C. Schoendorfer, M. Weil, C. Tomastik, A. Jauss, E. Bertagnolli, “Study of focused ion beam response of GaSb” Nuclear Instruments and Methods in Physics Research Section B, Volume 255, 2, 309 (2007).
[56] C. Schoendorfer, A. Lugstein, L. Bischoff, Y.J. Hyun, P. Pongratz, E. Bertagnolli, “FIB induced growth of antimony NWs”, Microelectronic Engineering, 84, 1440 (2007).
[57] Alois Lugstein, Aaron Maxwell Andrews, Mathias Steinmair, Youn-Joo Hyun, Emmerich Bertagnolli, Matthias Weil, Peter Pongratz, Matthias Schramböck, Tomas Roch, Gottfried Strasser, “Growth of branched single crystalline GaAs whiskers on Si NW trunks”, Nanotechnology 18, 355306 (2007).
[58] Heung-Bae Kim, Gerhard Hobler, Andreas Steiger, Alois Lugstein and Emmerich Bertagnolli, “Full three-dimensional simulation of focused ion beam micro/nanofabrication”, Nanotechnology 18, 245303 (2007).
[59] Heung-Bae Kim, Gerhard Hobler, Andreas Steiger, Alois Lugstein and Emmerich Bertagnolli, “Level set approach for the simulation of focused ion beam processing on the micro/nano scale”, Nanotechnology 18, 265307 (2007).
[60] Heung-Bae Kim, Gerhard Hobler, Alois Lugstein and Emmerich Bertagnolli, “Simulation of ion beam induced micro/nano fabrication”, J. Micromech. Microeng. 17, 1178 (2007).
[61] Christoph Schoendorfer, Alois Lugstein, Youn-Joo Hyun, Emmerich Bertagnolli, Lothar Bischoff , Philipp M. Nellen, Victor Callegari, Peter Pongratz, “Focused ion beam induced synthesis of a porous antimony NW network”, J. Appl. Phys. 102, 044308 (2007).
[62] H.-B. Kim, G. Hobler, A. Steiger, A. Lugstein, and E. Bertagnolli, "Simulation-based approach to accurate fabrication of blazed grating structures by focused ion beams", Opt. Express, 15(15), 9444-9449, 2007.
[63] M. Gregor, R. Micunek, T. Plecenik, T. Roch, A. Lugstein, E. Bertagnolli, I. Vavra, M. Stefecka, M. Kubinec, M.Leporis, V. Gasparik, P. Kus, A. Plecenik, „Nano-bridges based on the superconducting MgB2 thin films“, Physica C 468, 785 (2008).
[64] T. Plecenik, M. Gregor, M. Prascak, R. Micunek, M. Grajcar, A. Lugstein, E. Bertagnolli, M. Zahoran, T. Roch, P. Kus, A. Plecenik, „Superconducting MgB2 weak links and superconducting quantum interference devices prepared by AFM nanolithography”, Physica C 468, 789 (2008).
[65] A. Lugstein, M. Steinmair, Y. Hyun, G. Hauer, P. Pongratz, E. Bertagnolli, “ Pressure-Induced Orientation Control of the Growth of Epitaxial Si NWs”, Nano Lett. 8(8), 2310 (2008).
[66] A. Lugstein, Y.J. Hyun, M. Steinmair, B. Dielacher, G. Hauer, E. Bertagnolli, “Some aspects of substrate pretreatment for epitaxial Si NW growth”, Nanotechnology 19(48), 485606 (2008).
[67] A. Lugstein, A. Steiger-Thirsfeld, B. Basnar, Y.J. Hyun, P. Pongratz, E. Bertagnolli, “Impact of fluence-rate related effects on the sputtering of Si at elevated target temperatures”, Journal of Applied Physics 105, 044912 (2009).
[68] Y.J. Hyun, A. Lugstein, M. Steinmair, E. Bertagnolli, P. Pongratz, “Orientation specific synthesis of kinked Si NWs grown by the vapour–liquid–solid mechanism”, Nanotechnology 20, 125606 (2009).
[69] H. Detz, P. Klang, A.M. Andrews, A. Lugstein, M. Steinmair, Y.J. Hyun, E. Bertagnolli, W. Schrenk and G. Strasser, “Growth of one-dimensional III–V structures on Si NWs and pre-treated planar Si surfaces”, J. Crystal Growth, 311, 1859 (2009).
[70] A. Lugstein, M. Steinmair, C. Henkel, E. Bertagnolli, „Scalable Approach for Vertical Device Integration of Epitaxial NWs”, Nano Lett., 9 (5), 1830 (2009).
[71] E. Auer, A. Lugstein, S. Löffler, Y.-J. Hyun, W. Brezna, E. Bertagnolli & P. Pongratz, “Ultrafast VLS growth of epitaxial β-Ga2O3 NWs”, Nanotechnology 20, 434017 (2009).
[72] T. Burchhart, A. Lugstein, Y. J. Hyun, G. Hochleitner and E. Bertagnolli, „Atomic Scale Alignment of Copper-Germanide Contacts for Ge NW Metal Oxide Field Effect Transistors”, Nano Lett., 9 (11), 3739 (2009).
[73] A. Avdić, A. Lugstein, C. Schöndorfer, and E. Bertagnolli, „Focused ion beam generated antimony NWs for microscale pH sensor”, Appl. Phys. Lett., 95, 223106 (2009).
[74] T. Burchhart, A. Lugstein, C. Zeiner, H.Y. Hyung, G.Hochleitner, E. Bertagnolli, „NW-metal heterostructures for high performance MOSFETs“, Elektrotechnik und Informationtechnik, 127/6, 171 (2010).
[75] A. Lugstein, M. Steinmair, A. Steiger, H. Kosina and E. Bertagnolli, „Anomalous Piezoresistance Effect in Ultrastrained Si NWs”, Nano Lett., 10 (8), 3204 (2010).
[76] S. Löffler, E. Auer, M. Weil, A. Lugstein, E. Bertagnolli, “Impact of growth temperature on the crystal habits, forms and structures of VO2 nanocrystals“, Appl Phys A, published online DOI: 10.1007/s00339-010-5940-5
[77] W. Molnar, A. Lugstein, P. Pongratz, N. Auner, C. Bauch, and E. Bertagnolli, „Subeutectic Synthesis of Epitaxial Si-NWs with Diverse Catalysts Using a Novel Si Precursor”, Nano Lett., 10 (10), 3957 (2010).
[78] T. Burchhart, C Zeiner, Y J Hyun, A Lugstein, G Hochleitner and E Bertagnolli, „High performance Ω-gated Ge NW MOSFET with quasi-metallic source/drain contacts” Nanotechnology, 21 435704 (2010).
[79] G. Hochleitner, M. Steinmair, A. Lugstein, P. Roediger, H.D. Wanzenboeck, and E Bertagnolli, „Focused electron beam induced deposition of gold catalyst templates for Si-NW synthesis” Nanotechnology, 22 015302 (2011).