Veröffentlichungen

PUBLIKATIONSLISTE OTHMAR MARTI Stand 13. 9. 2016

[1] P. Bakhtiarpour, A. Parvizi, M. Müller, M. Shahinpoor, O. Marti, and M. Amirkhani, “An external disturbance sensor for ionic polymer metal composite actuator,” Smart Materials and Structures, vol. 25, no. 1, p. 015008, 2016. Smart Materials and Structures 01/2016; 25(1):015008. DOI:10.1088/0964-1726/25/1/015008.

[2] I. Martin, M. Moch, T. Neckernuss, S. Paschke, H. Herrmann, and O. Marti, “Both monovalent cations and plectin are potent modulators of mechanical properties of keratin k8/k18 networks,” Soft Matter, p. accepted for publication, 2016.

[3] T. Paust, T. Neckernuss, K. Mertens, I. Martin, M. Beil, P. Walther, T. Schimmel, and O. Marti, “Active multi-point microrheology of cytoskeletal networks,” Beilstein Journal of Nanotechnology, vol. 7, p. 484491, 2016.

[4] F. Farajollahi, O. Marti, and M. Amirkhani, “Stabilization of self-assembled microdroplets using short chain alcohols,” Journal of Polymer Science Part B: Polymer Physics, vol. 53, no. 10, pp. 709–718, 2015.

[5] I. Martin, A. Leitner, P. Walther, H. Herrmann, and O. Marti, “Model-based analysis of keratin 8 and 18 filament assembly,” Journal of Physics D, vol. 48, p. 375401, 2015.

[6] T. Neckernuss, L. K. Mertens, I. Martin, T. Paust, M. Beil, and O. Marti, “Active microrheology with optical tweezers: A versatile tool to investigate anisotropies in intermediate filament networks,” Journal of Physics D, vol. 49, p. 045401, dec 2015.

[7] T. Schimmel and O. Marti, “Photolubrikation,” 05 2015. Die vorliegende Erfindung betrifft ein Verfahren zum orts- und/oder zeitabhängigen Verändern des Reibungskoeffizienten und der Adhäsionskraft zwischen zwei Körpern, welches das Bestrahlen einer oder beider Kontaktflächen zwischen den Körpern mit einer Strahlung umfasst, sowie eine Verwendung des erfindungsgemäßen Verfahrens zum orts- und/oder zeitabhängigen Verändern des Reibungskoeffizienten und der Adhäsionskraft zwischen zwei Körpern.

[8] M. Amirkhani, S. Sharifi, S. S. Funari, and O. Marti, “Depletion-induced sphere-cylinder transition in C12E5-microemulsion: a small-angle x-ray scattering study,” Molecular Physics, vol. 112, no. 12, pp. 1702–1709, 2014.

[9] K. Dammertz, A.-M. Saier, M. Amirkhani, and O. Marti, “Conformation and structural changes of diblock copolymers with octopus-like micelle formation in the presence of external stimuli,” Journal of Physics D, vol. 47, p. 175301, 4 2014.

[10] M. R. Gonc¸alves, A. Melikyan, H. Minassian, T. Makaryan, and O. Marti, “Strong dipole-quadrupole coupling and fano resonance in h-like metallic nanostructures,” Optics Express, vol. 22, pp. 24516–24529, 2014.

[11] H. Gong, Y. Yang, M. Pluntke, O. Marti, Z. Majer, N. Sewald, and D. Volkmer, “Calcium carbonate crystal growth beneath langmuir monolayers of acidic beta- hairpin peptides,” Dalton, vol. 09, p. 10.1039/C4DT01154F, 2014.

[12] S. Sharifi, G. V. Jensen, J. S. Pedersen, O. Marti, and M. Amirkhani, “The mixture of poly(propylene-glycol)-block-poly(ethylene-glycol)-block-ppg with c12e5 microemulsion,” Physics and Chemistry of Liquids, vol. 00319104.2013.806215, no. 0, pp. 1–9, 2014.

[13] D. Martini, O. Marti, M. Beil, T. Paust, C. Huang, M. Moosmann, J. Jin, T. Heiler, R. Gröger, T. Schimmel, and S. Walheim, “Interaction of epithelial cells with surfaces and surfaces decorated by molecules,” in Advances in Nanotechnology (T. Schimmel, H. von Löhneysen, and Barczewski, eds.), vol. 69 of Research Series, ch. Interaction of Epithelial Cells with Surfaces and Surfaces Decorated by Molecules, pp. 151–190, Baden-Württemberg Stiftung, 2013.

[14] S. Paschke, A. F. Weidner, T. Paust, O. Marti, M. Beil, and E. Ben-Chetrit, “Technical advance: Inhibition of neutrophil chemotaxis by colchicine is modulated through viscoelastic properties of subcellular compartments,” Journal of Leukocyte Biology, vol. 94, pp. 1091–1096, 2013.

[15] T. Paust, S. Paschke, M. Beil, and O. Marti, “Microrheology of keratin networks in cancer cells,” Physical Biology, vol. 10, p. 065008, December 2013.

[16] S. Sharifi, O. Marti, S. S. Funari, and M. Amirkhani, “The effect of different polymer length on water droplets of reverse aot microemulsion,” Physics and Chemistry of Liquids, vol. 0, no. 0, pp. 1–9, 2013.

[17] A. Steinbach, T. Paust, M. Pluntke, O. Marti, and D. Volkmer, “Selective adsorption of functionalized nanoparticles to patterned polymer brush surfaces and its probing with an optical trap,” ChemPhysChem, pp. n/a–n/a, 2013.

[18] M. Amirkhani, S. Sharifi, and O. Marti, “The effect of simultaneous size reduction and transient network formation on the dynamics of microemulsion,” Journal of Physics D: Applied Physics, vol. 45, p. 365302, 2012.

[19] M. R. Gonc¸alves, F. Enderle, and O. Marti, “Surface-enhanced raman spectroscopy of dye and thiol molecules adsorbed on triangular silver nanostructures: a study of near-field enhancement, localization of hot-spots and passivation of adsorbed carbonaceous species,” Journal of Nanotechnology, vol. 2012, p. 173273, 2012.

[20] A. Leitner, T. Paust, O. Marti, P. Walther, H. Herrmann, and M. Beil, “Properties of intermediate filament networks assembled from keratin 8 and 18 in the presence of mg2+,” Biophysical Journal, vol. 103, no. 2, pp. 195 – 201, 2012.

[21] T. Schimmel and O. Marti, “Lubrication by exposing to light.” Landesstiftung Baden-Württemberg GmbH, Stuttgart (DE), 2012.

[22] S. Sharifi, M. Amirkhani, J. M. Asla, M. R. Mohammadi, and O. Marti, “Light scattering and saxs study of aot microemulsion at low size droplet,” Soft Nanoscience Letters, vol. 2, pp. 8–12, 2012.

[23] S. Sharifi, M. Amirkhani, and O. Marti, “The modeling and study of depletion interaction at mixture of C12E5 microemulsion with polyethylene glycol polymer,” Soft Nanoscience Letters, vol. 2, pp. 71–76, 2012.

[24] S. Sharifi, M. R. Mohammadi, M. Aliahmad, O. Marti, and M. Amirkhani, “The effect of tbac on the collective diffusion coefficient and morphology of aot microemulsion at x=6.7,” Physics and Chemistry of Liquids, vol. 10.1080/00319104.2012.737788, pp. 1–11, 2012.

[25] N. Berger, M. Amirkhani, M. Abdelmohsen, M. R. Gonc¸alves, and O. Marti, “The effect of different stabilizers on the formation of self-assembled porous film,” Journal of Polymer Science Part B: Polymer Physics, vol. 49, pp. 1430–1436, 2011.

[26] M. Gonc¸alves, T. Makaryan, G. Papageorgiou, U. Herr, and O. Marti, “Near-fields in arrays of triangular particles: Coupling effects and field enhancements,” in COMSOL Conference Stuttgart 2011, (Stuttgart), 2011.

[27] M. R. Gonc¸alves, T. Makaryan, F. Enderle, S. Wiedemann, A. Plettl, O. Marti, and P. Ziemann, “Plasmonic nanohole arrays fabricated using nanosphere-lithography, soft-lithography and plasma etching,” Beilstein Journal of Nanotechnology, vol. 2, pp. 448–458, 2011.

[28] A. Kleiner, O. Marti, B. Gotsmann, A. Knoll, and U. Dürig, “Topographic patterning by tribocharging of a polymer,” Journal of Applied Physics, vol. 109, p. 124312, 2011.

[29] A. I. Kuznetsov, A. B. Evlyukhin, W. Cheng, A. Koroleva, R. Kiyan, C. Reinhardt, M. R. Gonc¸alves, O. Marti, and B. N. Chichkov, “Femtosecond laser fabrication of functional nanoparticle structures and their applications,” vol. Lasers and Electro- Optics Europe (CLEO EUROPE/EQEC), 2011 Conference on and 12th European Quantum Electronics Conference, 2011.

[30] A. I. Kuznetsov, A. B. Evlyukhin, M. R. Gonc¸alves, C. Reinhardt, A. Koroleva, M. L. Arnedillo, R. Kiyan, O. Marti, and B. N. Chichkov, “Laser fabrication of large-scale nanoparticle arrays for sensing applications,” ACS Nano, vol. 5, p. 48434849, 2011.

[31] S. Letsche, M. Pluntke, S. Tränkle, H. Gong, O. Marti, P. Jacobs, D. M. Mahlmann, P. Loosen, and D. Volkmer, “3d-characterization of microstructured poly(methacrylic acid) thin films via mach-zehnder interference microscopy,” Thin Solid Films, vol. 519, p. 81008108, 2011.

[32] F. Neues, S. Hild, M. Epple, O. Marti, and A. Ziegler, “Amorphous and crystalline calcium carbonate distribution in the tergite cuticle of moulting porcellio scaber (isopoda, crustacea).,” Journal of Structural Biology, vol. 175, pp. 10–20, Mar 2011.

[33] A. Steinbach, A. Tautzenberger, A. Ignatius, M. Pluntke, O. Marti, and D. Volkmer, “Coatings from micropatterned sulfobetaine polymer brushes as substrates for mc3t3-e1 cells,” Journal of Materials Science: Materials in Medicine, vol. 23, no. 2, pp. 573–579, 2011.

[34] F. Z. Zhang, M. Barczewski, Y. Z. Wan, A. Pfrang, S. Walheim, O. Marti, and T. Schimmel, “Nanotechnology - fundamentals and applications of functional nanostructures,” in Advances in Nanotechnology (T. Schimmel, H. von Löhneysen, and M. Barczewski, eds.), vol. 56 of Research Series, ch. Nanotribology and Nanotribochemistry of Model Systems: Investigation of Material- and Velocity-Dependent Mechanisms by AFM, pp. 261–280, Baden-Württemberg Stiftung, 2011.

[35] S. Fischer, T. Diesner, B. Rieger, and O. Marti, “Simulating and evaluating small- angle x-ray scattering of micro-voids in polypropylene during mechanical deformation,” Journal of Applied Crystallography, vol. 43, pp. 603–610, 2010.

[36] S. Fischer, O. Marti, T. Diesner, and B. Rieger, “Small-angle x-ray scattering on melt-spun polypropylene fibers: Modeling and data reduction,” Macromolecules, vol. 43, no. 11, pp. 5009–5015, 2010.

[37] H. Gong, M. Pluntke, O. Marti, P. Walther, L. Gower, H. Cölfen, and D. Volkmer, “Multilayered caco3/block-copolymer materials via amorphous precursor to crystal transformation,” Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol. 354, pp. 279–283, 2010. Nacre Thin Films Calcium Carbonate Block Copolymer Monolayers.

[38] R. Lehn and O. Marti, Messen von Distanzen mit Licht - Wege in die Nanowelt. Ulm: Ulm University, 2010.

[39] O. Marti, Optik - Skript zur Vorlesung Grundlagen der Physik III a für das Diplom Physik. Ulm: Ulm University, 2010.

[40] O. Marti, Vorlesungsskript PHYS1100 Grundlagen der Physik I für Physiker, Wirtschaftsphysiker und Lehramtskandidaten, vol. 1. Ulm: Ulm University, 2010.

[41] O. Marti, Wärmelehre, Schwingungen und Elastomechanik: Skript zu Grundlagen II der Physik. Ulm: Ulm University, 2010.

[42] O. Marti, Elektrizitätslehre - Skript zum Grundkurs 3 b für das Diplom Physik. Ulm: Ulm University, 2010.

[43] O. Marti and K. Hübner, “Force measurements with optical tweezers,” in Handbook of Nanotechnology (B. Bhushan, ed.), ch. D.32, pp. 1013–1022, Springer Verlag, 3rd edition ed., 2010.

[44] U. Simon, M. Helmer, F. Hauser, D. Lechler, F. Niemeyer, T. Wehner, U. Wolfram, and O. Marti, “Freies tool zur steifigkeitsberechnung knöcherner strukturen aus klinischen bilddaten entwicklung, validierung und erprobung von fea4dicom,” in Proceedings of ACUM 2010, (Aachen), 2010.

[45] F. Z. Zhang, S. Walheim, T. Schimmel, and O. Marti, “New laser apparatus to measure oscillation amplitude down to picometer at megahertz frequencies,” Review of Scientific Instruments, vol. 81, no. 3, pp. 035116–035116–4, 2010.

[46] A. Boger, C. Imhof, B. Heise, O. Marti, C. Troll, B. Rieger, and S. Hild, “Stress- induced changes in microstructure of a low-crystalline polypropylene investigated at uniaxial stretching,” Journal of Applied Polymer Science, vol. 112, no. 1, pp. 188– 199, 2009.

[47] S. Hild, F. Neues, N. Znidar?i`e, J. ?trus, M. Epple, O. Marti, and A. Ziegler, “Ultrastructure and mineral distribution in the tergal cuticle of the terrestrial isopod titanethes albus. adaptations to a karst cave biotope.,” Journal of Structural Biology, vol. 168, p. 426?436, 2009.

[48] S. A. Letsche, A. M. Steinbach, M. Pluntke, O. Marti, A. Ignatius, and D. Volkmer, “Usage of polymer brushes as substrates of bone cells,” Frontiers of Materials Science in China, vol. 3, no. 2, pp. 132–144, 2009.

[49] T. Schimmel and O. Marti, “Lubrication by exposing to light,” 2009.

[50] O. Bunk, M. Dierolf, S. Kynde, I. Johnson, O. Marti, and F. Pfeiffer, “Influence of the overlap parameter on the convergence of the ptychographical iterative engine,” Ultramicroscopy, vol. 108, no. 5, p. 481?487, 2008. ja.

[51] M. Dierolf, O. Bunk, S. Kynde, P. Thibault, I. Johnson, A. Menzel, K. Jefimovs, C. David, O. Marti, and F. Pfeiffer, “Ptychography & lensless x-ray imaging,” europhysicsnews, vol. 39, no. 1, pp. 22–24, 2008. ja.

[52] A. M. Gigler and O. Marti, “Quantitative measurement of materials properties with the (digital) pulsed force mode,” in Applied Scanning Probe Methods IX - Characterization (B. Bhushan, H. Fuchs, M. Tomitori, B. Bhushan, D. Bimberg, K. von Klitzing, and R. Wiesendanger, eds.), vol. XI, pp. 23–54, Berlin Heidelberg: Springer Verlag, 2008. ja.

[53] M. R. Gonc¸alves, A. Siegel, and O. Marti, “Influence of the light scattering form factor on the bragg diffraction patterns of arrays of metallic nanoparticles,” Journal of Microscopy, vol. 229, no. Pt 3 2008, pp. 475–482, 2008. ja.

[54] M. R. Gonc¸alves, A. Siegel, and O. Marti, “Sers observed in periodic metallo- dielectric nanostructures fabricated using coated colloidal crystals,” SPIE - The International Society for Optical Engineering. Proceedings of the SPIE - The International Society for Optical Engineering, vol. 6988, pp. 698809–1–12, 2008.

[55] S. Hild, O. Marti, and A. Ziegler, “Spatial distribution of calcite and amorphous calcium carbonate in the cuticle of the terrestrial crustaceans porcellio scaber and armadillidium vulgare,” Journal of Structural Biology, vol. 163, no. 1, pp. 100–108, 2008.

[56] M. Hinz, O. Marti, B. Gotsmann, M. A. Lantz, and U. Dürig, “High resolution vacuum scanning thermal microscopy of hfo2 and sio2,” Applied Physics Letters, vol. 92, pp. 043122–1–3, 2008. ja.

[57] S. Letsche, A. Steinbach, M. Pluntke, O. Marti, A. Ignatius, and D. Volkmer, “Applications of patterned polymer brushes as substrate of bone cells,” in Biomineralization: from Paleontology to Materials Science (J. L. Arias and M. S. Fern´andez, eds.), Santiago, Chile: Editorial Univ., 2008.

[58] O. Marti, “Buchbesprechung ”big business und big bang. berufsund studienführer physik, m. rauner, s.]orda.”,” 2008.

[59] O. Marti, M. Holzwarth, and M. Beil, “Measuring nanomechanical properties of cancer cells by digital pulsed force mode imaging,” Nanotechnology, vol. 19, p. 384015 (7pp), 2008.

[60] O. Marti and T. Schimmel, “Application of nanostructured surfaces for immobilization of oligomers - investigation of the resulting dynamics by means of scanning probe microscopy,” in Nanotechnology, Physics, Chemistry and Biology of Functional Nanostructures (T. Schimmel, H. v. Löhneysen, C. Obermair, and M. Barczewski, eds.), pp. 317–343, Stuttgart: Landesstiftung Baden-Württemberg, 2008.

[61] T. Schimmel and O. Marti, “Verfahren zur kontrollierten beeinflussung von reibung (photolubrikation),” 2008.

[62] B. Bhushan and O. Marti, “Scanning probe microscopy - principle of operation, instrumentation, and probes,” in Springer Handbook of Nanotechnology (B. Bhushan, ed.), pp. 591–635, New York: Springer, 2nd edition ed., 2007. ja.

[63] A. Boger, B. Heise, C. Troll, O. Marti, and B. Rieger, “Mechanical and temperature dependant properties, structure and phase transitions of elastic polypropylenes,” European Polymer Journal, vol. 43, no. 2, pp. 634–643, 2007.

[64] A. Boger, B. Heise, C. Troll, O. Marti, and B. Rieger, “Orientations of the alpha- and gamma- modification of elastic polypropylene at uniaxial stretching,” European Polymer Journal, vol. 43, no. 8, pp. 3573–3586, 2007. ja.

[65] M. Csete, A. Khazi-Kis, V. Megyesi, K. Osvay, Z. Bor, M. Pietralla, and O. Marti, “Coupled surface plasmon resonance on bimetallic films covered by sub-micrometer polymer gratings,” Organic Electronics, vol. 8, no. 2-3, pp. 148–60, 2007. Publisher: Elsevier, UK.

[66] M. Csete, A. Sipos, A. Szalai, G. Szekeres, A. Mathesz, T. Csak, K. Osvay, Z. Bor, A. Deli, S. Veszelka, A. Schmatulla, and O. Marti, “Comparative study of sub- micrometer polymeric structures: dot-arrays, linear and crossed gratings generated by uv laser based two-beam interference, as surfaces for spr and afm based biosensing,” Applied Surface Science, vol. 254, no. 4, pp. 1194–1205, 2007. ja.

[67] M. Csete, A. Sipos, A. Szalai, A. Mathesz, M. A. Deli, S. Veszelka, A. Schmatulla, A. Kohazi-Kis, K. Osvay, O. Marti, and Z. Bor, “Bio-sensing based on plasmon- coupling caused by rotated sub-micrometer gratings in metal-dielectric interfacial layers,” SPIE - The International Society for Optical Engineering. Proceedings of the SPIE - The International Society for Optical Engineering, vol. 6755, no. 1, pp. 67550X–1–13, 2007. USA. Advanced Environmental, Chemical, and Biological Sensing Technologies V. Boston, MA, USA. 10 Sept. 2007.

[68] M. O. Gallyamov, S. G. Starodubtsev, T. P. Bragina, L. V. Dubrovina, I. I. Potemkin, O. Marti, and A. R. Khokhlov, “Conformational behaviour of comblike poly(4-vinylpyridinium) salts and their complexes with surfactants in solution and on a flat surface,” Macromol. Chem.Phys., vol. 208, pp. 164–174, 2007. ja.

[69] A. Gigler, C. Gnahm, O. Marti, T. Schimmel, and S. Walheim, “Towards quantitative materials characterization with digital pulsed force mode imaging,” Journal of Physics: Conference Series, vol. 61, pp. 346–351, 2007. ja.

[70] A. Gigler, M. Holzwarth, and O. Marti, “Local nanomechanical properties of hela- cell surfaces,” Journal of Physics: Conference Series, vol. 61, pp. 780–784, 2007.

[71] M. R. Gonçalves, A. Siegel, R. Ameling, and O. Marti, “Scattering of light at micro- and nanostructures of triangular shape,” in Complex Light and Optical Forces (D. L. Andrews, E. J. Galvez, and G. Nienhuis, eds.), vol. 6483, (San Jose, USA), p. 64830B, SPIE, 2007.

[72] O. Marti, D. Meinhard, B. Rieger, and A. Schmatulla, “Topology and nanomechanics of polyethylene networks,” Nanotechnology, vol. 18, p. 044013(7pp), 2007. ja.

[73] D. Meinhard, M. Wegner, G. Kipiani, A. Hearley, P. Reuter, S. Fischer, O. Marti, and B. Rieger, “New nickel(ii) diimine complexes and the control of polyethylene microstructure by catalyst design,” Journal of the Americal Chemical Society, vol. 129, pp. 9182–9191, 2007. ja.

[74] A. Schmatulla, N. Maghelli, and O. Marti, “Micromechanical properties of tobacco mosaic viruses,” Journal of Microscopy, vol. 225, no. 3, pp. 263–267, 2007. ja.

[75] A. Siegel, M. R. Gonc¸alves, R. Ameling, and O. Marti, “Investigations of the light scattering form factor of metallic nanostructures using bragg diffraction,” Journal of Optics A, vol. 9, pp. S443–S449, 2007.

[76] G.-I. Asbach and O. Marti, Anleitung zum Grundpraktikum der Physik für Physiker. Ulm: Ulm University, 2006.

[77] M. Csete, G. Kurdi, J. Kokavecz, V. Megyesi, K. Osvay, Z. Schay, Z. Bor, and O. Marti, “Application possibilities and chemical origin of sub-micrometer adhesion modulation on polymer gratings produced by uv laser illumination,” Mat. Sci. and Engin. C, vol. 26, no. 5-7, pp. 1056–1062, 2006.

[78] M. Csete, G. Szekeres, C. Vass, N. Maghelli, K. Osvay, Z. Bor, M. Pietralla, and O. Marti, “Surface plasmon resonance spectroscopy on rotated sub-micrometer polymer gratings generated by uv-laser based two-beam interference,” Applied Surface Science, vol. 252, no. 13, pp. 4773–4780, 2006.

[79] M. J. Holzwarth, A. M. Gigler, and O. Marti, “Digital pulsed force mode - determining local mechanical properties of hela cells,” Imaging and Microscopy, vol. 8, no. 4, pp. 37–38, 2006.

[80] J. Kokavecz, O. Marti, P. Heszler, and A. Mechler, “Imaging bandwidth of the tapping mode atomic force microscope probe,” Physical Review B (Condensed Matter and Materials Physics), vol. 76, no. 15, pp. 155403–1–8, 2006.

[81] M. Csete, N. Kresz, C. Vass, G. Kurdi, Z. Heiner, M. Deli, Z. Bor, and O. Marti, “Sub-micrometer adhesion modulation on polymer surfaces containing gratings produced by two-beam interference,” Mat. Sci. and Engin. C, vol. 25, no. 5-8, pp. 813– 819, 2005.

[82] M. Csete, C. Vass, J. Kokavecz, M. Gonc¸alves, V. Megyesi, Z. Bor, M. Pietralla, and O. Marti, “Effect of sub-micrometer polymer gratings generated by two-beam interference on surface plasmon resonance,” Applied Surface Science, vol. 247, no. 1- 4, pp. 477–485, 2005.

[83] A. Gigler and O. Marti, “Pulsed force mode sfm,” in Scanning Probe Microscopies beyond imaging (P. Samori, ed.), pp. 208–249, Wiley-VCH, 2005.

[84] B. Gotsmann, M. Hinz, M. A. Lantz, U. Duerig, O. Marti, and J. Windeln, “Heat transfer experiments on micro- and nanoscale: Interface and size effects,” in American Physical Society, APS March Meeting, March 21-25, 2005, 2005.

[85] H.-U. Krotil, T. Stifter, and O. Marti, “Verfahren und Vorrichtung zur gleichzeitigen Bestimmung zumindest zweier Materialeigenschaften einer Probenoberfläche, umfassend die Adhäsion, die Reibung, die Oberflächentopographie sowie die Elastizität und Steifigkeit,” 2005.

[86] P. Spizig, D. Sanchen, J. Förstner, J. Koenen, and O. Marti, “Rastersonde in pulsed force mode, digital und in echtzeit, scanning probe with digitised pulsed-force mode operation and real-time evaluation, sonde de balayage en mode digital de force pulsee et en temps reel,” 2005.

[87] B. Bhushan and O. Marti, “Scanning probe microscopy - principle of operation, instrumentation, and probes,” in Springer Handbook of Nanotechnology (B. Bhushan, ed.), pp. 325–369, Heidelberg: Springer-Verlag, 2004.

[88] M. Csete, S. Hild, A. Plettl, P. Ziemann, Z. Bor, and O. Marti, “The role of original surface roughness in laser-induced periodic surface structure formation process on poly-carbonate films,” Thin Solid Films, vol. 453-454, pp. 114–20, 2004. Symposium H on Photonic Processing of Surfaces, Thin Films & Devices of the EMRS 2003 Spring Conference. Strasbourg, France. 10-11 June 2003. Size 2.28E-07 m English Conference Paper.

[89] S. Hild, O. Marti, F. Hollmann, and B. Rieger, “Effects of the chain microstructure on the properties of polyketones terpolymers characterized by scanning force microscopy,” European Polymer Journal, vol. 40, no. 5, pp. 905–916, 2004.

[90] M. Hinz, A. Kleiner, S. Hild, O. Marti, U. Dürig, B. Gotsmann, U. Drechsler, T. R. Albrecht, and P. Vettiger, “Temperature dependent nano indentation of thin polymer films with the scanning force microscope,” European Polymer Journal, vol. 40, no. 5, pp. 957–964, 2004.

[91] B. Hopp, N. Kresz, J. Kokavecz, T. Smausz, H. Schieferdecker, A. Doring, O. Marti, and Z. Bor, “Adhesive and morphological characteristics of surface chemically modified polytetrafluoroethylene films,” Applied Surface Science, vol. 221, no. 1-4, pp. 437–443, 2004. Publisher: Elsevier, Netherlands. Pressure 3.0E+04 to 9.0E+06 Pa English Journal Paper.

[92] B. Hopp, T. Smausz, J. Kokavecz, N. Kresz, Z. Bor, S. Hild, and O. Marti, “Investigation of incubation in arf excimer laser irradiated poly(methyl-methacrylate) using pulsed force mode atomic force microscopy,” Journal of Applied Physics, vol. 96, no. 10, pp. 5548–5551, 2004. Publisher: AIP, USA. English Journal Paper.

[93] N. Kresz, J. Kokavecz, T. Smausz, B. Hopp, M. Csete, S. Hild, and O. Marti, “Investigation of pulsed laser deposited crystalline ptfe thin layer with pulsed force mode afm,” Thin Solid Films, vol. 453-454, pp. 239–244, 2004.

[94] H. Krotil, T. Stifter, and O. Marti, “Verfahren und vorrichtung zur gleichzeitigen bestimmung der adhäsion, der reibung und weiterer materialeigenschaften einer probenoberfläche,” 2004.

[95] R. K. Pai, S. Hild, A. Ziegler, and O. Marti, “Water-soluble terpolymer mediated calcium carbonate crystal modification,” Langmuir, vol. 20, pp. 3123–3128, 2004.

[96] M. Csete, R. Eberle, M. Pietralla, O. Marti, and Z. Bor, “Attenuated total reflection measurements on poly-carbonate surfaces structured by laser illumination,” Applied Surface Science, vol. 208-209, pp. 474–480, 2003.

[97] M. Csete, J. Kokavecz, Z. Bor, and O. Marti, “The existence of sub-micrometer micromechanical modulation generated by polarized uv laser illumination on polymer surfaces,” Materials Science & Engineering, vol. C23, no. 6-8, pp. 939–944, 2003.

[98] M. R. Gonc¸alves and O. Marti, “Experimental observation of the scattering of light by planar metallic nanoparticles,” New Journal of Physics, vol. 5, pp. 160.1–160.14, 2003.

[99] O. Marti, “Buchbesprechung: Big business und big bang by M. Rauner, S.Jorda,” 2002.

[100] S. Riethmuller, A. Mourran, M. Moller, S. A. Levi, D. N. Reinhoudt, M. Gonçalves, and O. Marti, “Selective bonding of fluorescent molecules on gold surfaces,” in 224th ACS National Meeting, vol. POLY-616, (Boston, MA, United States), p. AN 2002:778781, American Chemical Society, 2002.

[101] H. Schieferdecker, M. Haider, A. Kuhn, A.-L. Gauthier, S. Hild, and O. Marti, “Surface characterization of uv-treated poly-(butylene-terephtalate),” in Papers presented at ECASIA ’01: Proceedings of the 9th European Conference on Applications of Surface and Interface Analysis (P. Marcus, A. Galtayries, and J. F. Watts, eds.), European Conference on Applications of Surface and Interface Analysis, John Wiley& Sons, Chichester, 2002.

[102] P. Spizig, D. Sanchen, J. Förstner, J. Koenen, and O. Marti, “Verfahren zur Abbildung einer Probenoberfläche mit Hilfe einer Rastersonde sowie einem Rastersondenmikroskop,” 2002.

[103] P. Spizig, D. Sanchen, J. Foerstner, J. Koenen, and O. Marti, “Procedure for the illustration of a sample/test surface with the help of a raster probe as well as raster probe microscope,” 2002. Patent Family Information Patent No.KindDateApplication No.Date DE10062049A120020627DE2000- 1006204920001213 WO2048000338A120040507WO2001-EP1459320011212 W: AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, IT, LI, LU, MC, NL, PT, SE, TR EP1342049B120051005EP2001-99183020011212 R: AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, IT, LI, LU, MC, NL, PT, SE, TR AT306068T20051015AT2001-99183020011212 EP1640996A220060329EP2005- 2168120011212 EP1640996A320060510 R: AT, BE, CH, DE, DK, ES, FR, GB, GR, IT, LI, LU, NL, SE, MC, PT, IE, SI, LT, LV, FI, RO, MK, CY, AL, TR US2004084618A120040506US2003-43391720031201 US7129486B220061031 Priority Application DE2000-10062049A20001213 EP2001-991830A20011212 WO2001- EP14593W20011212.

[104] F. Vargas, O. Hollricher, O. Marti, G. de Schaetzen, and G. Tarrach, “Influence of protective layers on the blinking of fluorescent single molecules observed by confocal microscopy and scanning near field optical microscopy,” Journal of Chemical Physics, vol. 117, no. 2, pp. 866–871, 2002.

[105] M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Applied Physics A (Materials Science Processing), vol. A73, no. 4, pp. 521–526, 2001.

[106] S. Emonin, T. Held, N. Richard, O. Hollricher, and O. Marti, “Multicolor images acquisition by scanning near-field optical microscopy,” Journal of Applied Physics, vol. 90, no. 9, pp. 4820–4824, 2001.

[107] P. Kröner, H. Baumeister, R. Gessner, J. Rieger, M. Schier, E. Veuhoff, O. Marti, and H. Heinecke, “Mechanisms in embedded selective epitaxy and overgrowth of an integrated laser/modulator quantum well structure using mombe and movpe,” in Growth, Evolution and Properties of Surfaces, Thin Films and Self-Organized Structures. Symposium (S. Moss, ed.), (Boston, Massachusetts), pp. P6.46.1–6, MRS, 2001.

[108] P. Kröner, H. Baumeister, J. Rieger, E. Veuhoff, O. Marti, and H. Heinecke, “Heterointerface optimization in inp based strained mqw laser structures using metalorganic growth technologies,” in International Conference on Indium Phosphide and Related Materials. 13th IPRM, pp. 296–298, Japan Soc. Appl. Phys., 2001. Using Smart Source Parsing International Conference on Indium Phosphide and Related Materials. 13th IPRM / Japan Soc. Appl. Phys.; IEEE Lasers & Electro-Opt. Soc.; IEEE Electron Devices Soc.; IEICE; Optoelectron. Ind. & Technol. Dev. Assoc.; Res. & Dev. Assoc. Future Electron Devices. - 14-18 May 2001. - In: Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. - Piscataway, NJ, USA, USA: IEEE, 2001, xiii+635 p. 12 Refs A6865 Low-dimensional structures: growth, structure and nonelectronic properties A4255P Lasing action in semiconductors A7855E Photoluminescence in II-VI and III-V semiconductors A7865K Optical properties of III-V and II-VI semiconductors (thin films/low-dimensional structures) A8115G Vacuum deposition A8115H Chemical vapour deposition A6848 Solid-solid interfaces B2530C Semiconductor superlattices, quantum wells and related structures B4320J Semiconductor lasers B0520D Vacuum deposition B0520F Chemical vapour deposition.

[109] H.-U. Krotil and O. Marti, “Dynamic friction measurements with the afm on polymer surfaces,” J. Synthetic Lubrication, vol. 18, no. 1, pp. 1–15, 2001.

[110] H.-U. Krotil, T. Stifter, and O. Marti, “Lock-in technique for concurrent measurement of adhesion and friction with the scanning force microscope,” Review of Scientific Instruments, vol. 72, no. 1, pp. 150–156, 2001.

[111] V. Likodimos, M. Labardi, X. K. Orlik, L. Pardi, M. Allegrini, S. Emonin, and O. Marti, “Thermally activated ferroelectric domain growth due to random defects,” Physical Review B>, vol. 63, no. 6, pp. 064104/1–4, 2001.

[112] O. Marti and H.-U. Krotil, “Dynamic friction measurement with the scanning force microscope,” in Fundamentals of Tribology and Bridging the Gap between the Macro- and Micro/Nanoscales (B. Bhushan, ed.), pp. 121–135, Dordrecht: Kluwer Academic Publisher, 2001.

[113] A. Simon, R. Brunner, J. O. White, O. Hollricher, and O. Marti, “Shear-force distance control at megahertz frequencies for near-field scanning optical microscopy,” Review of Scientific Instruments, vol. 72, no. 11, pp. 4178–4182, 2001.

[114] M. Allegrini, N. Garcia, and O. Marti, eds., Proceedings of the International School of Physics ”Enrico Fermi” Course, Nanometer Scale Science and Technology, held 27 June-7 July 2000 at Varenna on Lake Como, Italy, vol. 144. Societ Italiana di Fisica Bologna-Italy, 2001.

[115] R. Brunner, M. E. Kosal, K. S. Suslick, R. Lamche, O. Marti, and J. O. White, “Near-field scanning optical microscopy of zinc-porphyrin crystals,” Ultramicroscopy, vol. 84, no. 3-4, pp. 149–157, 2000.

[116] R. Brunner, A. Simon, T. Stifter, and O. Marti, “Modulated shear-force distance control in near field optical microscopy (NSOM),” Review of Scientific Instruments, vol. 71, no. 3, pp. 1466–1471, 2000.

[117] R. Brunner, T. Stifter, and O. Marti, “Verfahren zur bestimmung des abstandes einer nahfeldsonde von einer zu untersuchenden probeoberfläche,” 2000.

[118] T. Held, S. Emonin, O. Marti, and O. Hollricher, “Method to produce high- resolution scanning near-field optical microscope probes by beveling optical fibers,” Review of Scientific Instruments, vol. 71, no. 8, pp. 3118–3122, 2000.

[119] P. Kröner, H. Baumeister, J. Rieger, E. Veuhoff, O. Marti, and H. Heinecke, “Comparison of structural and optical properties in strained gainasp mqw structures grown by movpe and mombe,” Journal of Crystal Growth, vol. 209, pp. 424–430, 2000.

[120] H.-U. Krotil, T. Stifter, and O. Marti, “Concurrent measurement of adhesive and elastic surface properties with a new modulation technique for scanning force microscope,” Review of Scientific Instruments, vol. 71, no. 7, pp. 2765–2771, 2000.

[121] H.-U. Krotil, T. Stifter, and O. Marti, “Combined dynamic adhesion and friction measurement with the scanning force microscope,” Applied Physics Letters, vol. 77, no. 23, pp. 3857–3859, 2000.

[122] H.-U. Krotil, T. Stifter, and O. Marti, “Method and device for simultaneously determining the adhesion, friction, and other material properties of a sample surface,” 2000.

[123] O. Marti, “Experimental techniques in near field optics,” in ”Nanometer scale science and technology (M. Allegrini, N. Garc´ıa, and O. Marti, eds.), vol. CXLIV, Varenna: SOCIET ITALIANA DI FISICA, 2000.

[124] O. Marti, “Measurement of adhesion and pull-off forces with the afm,” in Handbook of Modern Tribology (B. Bhushan, ed.), CRC, 2000.

[125] O. Marti, “Raum und zeit: eine physikalische zeitreise,” in Interdisziplinäre Beiträge zu Zeit und Raum (R. Rüdel, C. Stadelhofer, and C. Stadelhofer, eds.), vol. 8, pp. 78– 136, Ulm: ZAWIW, 2000.

[126] C. Messerschmidt, A. Schulz, J. P. Rabe, A. Simon, O. Marti, and J.-H. Fuhrhop, “Formation of stable singularities in mixed monolayers of porphyrins and tetracosanoic acid upon sfm tapping,” Langmuir, vol. 16, no. 3, pp. 1299–1305, 2000.

[127] B. Rieger, C.Troll, O. Marti, S. Hild, A. Mayer, R. Döhrmann, A. Boger, and B. Heise, “Properties of thermoplastic elastic polypropenes,” annual report, Hasylab Hamburg, 2000.

[128] T. Stifter, O. Marti, and B. Bhushan, “Theoretical investigation of the distance dependence of capilary and van der waals forces in sfm,” Physical Review B, vol. 62, no. 20, pp. 13667–13673, 2000.

[129] R. Brunner, O. Marti, and O. Hollricher, “Influence of environmental conditions on shear-force distance control in near field optical microscopy,” Journal of Applied Physics, vol. 86, no. 12, pp. 7100–7106, 1999.

[130] J. Colchero, E. Meyer, and O. Marti, “Friction on an atomic scale,” in Handbook of Micro/Nanotribology (B. Bhushan, ed.), pp. 273–333, Boca Raton: CRC-Press, 2 ed., 1999. 3.

[131] H.-U. Krotil and O. Marti, “Dynamic friction measurements with the afm on polymer surfaces,” in Tribology 2000 - Plus (W. Bartz, ed.), vol. 12, pp. 1633–1638, Esslingen: Technische Akademie, 1999.

[132] H.-U. Krotil, T. Stifter, H. Waschipky, K. Weishaupt, S. Hild, and O. Marti, “Pulsed force mode: a new method for the investigation of surface properties,” Surface and Interface Analysis, vol. 27, no. 5-6, pp. 336–340, 1999. Proceedings of the 3rd Conference on Development and Industrial Application of Scanning Probe Methods (SXM-3). Basel, Switzerland. 16-19 Sept. 1998.

[133] H.-U. Krotil, E. Weilandt, T. Stifter, O. Marti, and S. Hild, “Dynamic friction force measurement with the scanning force microscope,” Surface and Interface Analysis, vol. 27, no. 5-6, pp. 341–347, 1999. Proceedings of the 3rd Conference on Development and Industrial Application of Scanning Probe Methods (SXM-3). Basel, Switzerland. 16-19 Sept. 1998.

[134] O. Marti and S. Hild, “Temperature dependent surface properties of thin polystyrene films,” in Symposium on Microstructure and Microtribology of Polymer Surfaces, ACS Symposium Series (Boston Meeting 1998) (K. J. Wahl and V. V. Tsukruk, eds.), vol. 741, pp. 212–226, ACS, 1999.

[135] O. Marti, T. Stifter, H. Waschipky, M. Quintus, and S. Hild, “Scanning probe microscopy of heterogeneous polymers,” Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol. 154, no. 1-2, pp. 65–73, 1999. 2nd Conference on Surface Characterization of Absorption and Interfacial Reactions. Keanhou-Kona, HI, USA. 11-16 Jan. 1998.

[136] J. Barenz, P. Anger, O. Hollricher, O. Marti, M. Wachter, R. Butendeich, and H. Heinecke, “Spatially resolved near field spectroscopy on localized gainas/inp doubleheterostructures,” Journal of Applied Physics, vol. 83, no. 2, pp. 870–876, 1998.

[137] J. Barenz, A. Eska, O. Hollricher, O. Marti, M. Wachter, U. Schöffel, and H. Heinecke, “Near field luminescence measurements on gainasp/inp doubleheterostructures at room temperature,” Applied Optics, vol. 37, no. 1, pp. 106–112, 1998.

[138] D. Drews, W. Noell, W. Ehrfeld, M. Lacher, K. Mayr, O. Marti, C. Serwatzy, and M. Abraham, “Micromachined aperture probe for combined atomic force and near-field scanning optical microscopy (afm/nsom).,” in Materials and Device Characterization in Micromachining, (Santa Clara, CA, USA, 21-22 Sept), pp. 76–83, SPIE-Int. Soc. Opt. Eng, 1998.

[139] S. Hild, U. Krotil, and O. Marti, “Pulsed force mode: A new method for characterizing thin silane films by adhesive force measurements,” in Tribology Issues and Opportunities in MEMS (B. Bhushan, ed.), pp. 247–260, Dordrecht: Kluwer Scientific Publishers, 1998.

[140] S. Hild and O. Marti, “Temperature dependent surface properties of thin polymer films,” in Polymer Preprints, vol. 39, pp. 1230–1231, ACS, 1998. .

[141] S. Hild, A. Rosa, and O. Marti, “Deformation induced changes in surface properties of polymers investigated by scanning force microscopy,” in Scanning Probe Microscopy of Polymers (B. D. Ratner and V. V. Tsukruk, eds.), vol. 694, ch. Chapter 6, pp. 110–128, American Chemical Society and Oxford University Press, 1998.

[142] S. Hild, A. Rosa, G. Volswinkler, and O. Marti, “Pulsed force mode - a new method for simultaneous imaging of mechanical and chemical surface properties,” in Bulletin of the Microscopy Society of Canada, vol. 26, pp. 24–25, Microscopy Society of Canada, 1998.

[143] O. Hollricher, R. Brunner, and O. Marti, “Piezoelectrical shear-force distance control in near-field optical microscopy for biological applications,” Ultramicroscopy, vol. 71, pp. 143–147, 1998.

[144] H. Kilian, W. Oppermann, B. Zink, and O. Marti, “Relaxation of polymer molecules in networks - the extended aggregate molecules,” Computational and Theoretical Polymer Science, vol. 8, no. 1/2, pp. 99–111, 1998.

[145] I. Luzinov, S. Miko, V. Senkovsky, A. Voronov, S. Hild, O. Marti, and W. Wilke, “Synthesis and behavior of the polymer covering on a solid surface. 3. morphology and mechanism of formation of grafted polystyrene layers on the glass surface,” Macromolecules, vol. 31, pp. 3945–3952, 1998.

[146] O. Marti, “Afm instrumentation and tips,” in Handbook of Micro/Nanotribology(B. Bhushan, ed.), pp. 81–144, Boca Raton: CRC Press, 2 ed., 1998.

[147] O. Marti, “Afm signals and imaging modes: Conventional imaging,” in Handbook of Scanning Probe Microscopy (Colton, Engel, Frommer, Gaub, Gewirth, Guckenberger, Heckl, Parkinson, and Rabe, eds.), pp. 105–109, Chichester, UK: John Wiley and Sons, 1998.

[148] O. Marti, J. Barenz, R. Brunner, M. Hipp, O. Hollricher, I. Hörsch, and J. Mlynek, “Photons and local probes,” in Nanoscale Science and Technology (N. Garcia, M. Nieto-Vesperinas, and H. Rohrer, eds.), vol. E:348, pp. 155–174, Dordrecht: Kluwer, 1998.

[149] O. Marti, L. Weiss, and S. Hild, “Temperature dependent adhesive and viscoelastic poperties of polymer mixtures,” in 216th ACS National Meeting, (Boston), ACS, 1998.

[150] T. Miyatani, S. Okamoto, A. Rosa, O. Marti, and M. Fujihira, “Surface charge mapping of solid surfaces in water by pulsed-force-mode atomic force microscopy.,” Applied Physics A (Materials Science Processing), vol. 66, pp. S349–352, 1998.

[151] T. Stifter, E. Weilandt, S. Hild, and O. Marti, “Influence of the topography on adhesion measured by sfm,” Applied Physics A, vol. 66, pp. S597–S605, 1998.

[152] M. Abraham, W. Ehrfeld, M. Lacher, O. Marti, K. Mayr, W. Noell, P. Güthner, and J. Barenz, “Micromachined aperture probe tip for multifunctional scanning probe microscopy,” in Micro-Optical Technologies for Measurement, Sensors and Microsystems II and Optical Fiber Sensor Technologies and Applications, (Munich, Germany, 18-20 June), pp. 248–56, SPIE-Int. Soc. Opt. Eng, 1997.

[153] R. Brunner, A. Bietsch, O. Hollricher, and O. Marti, “Distance control in nearfield optical microscopy with electrical shear force detection suitable for imaging in liquids,” Review of Scientific Instruments, vol. 68, no. 4, pp. 1769–1772, 1997.

[154] R. Brunner, A. Bietsch, O. Hollricher, O. Marti, and A. Lambacher, “Application of a near-field optical microscope to investigate the fluorescence energy transfer between chromophores embedded in langmuir-blodgett films,” Surface and Interface Analysis, vol. 25, no. 7-8, p. 492, 1997.

[155] R. Brunner, O. Hering, O. Marti, and O. Hollricher, “Piezoelectrical shear-force control on soft biological samples in aqeuous solution,” Applied Physics Letters, vol. 71, pp. 3628–3639, 1997.

[156] S. Hild, A. Rosa, G. Volswinkler, and O. Marti, “Pulsedforcemode - a new method for simultaneous imaging of mechanical and chemical surface properties,” in Topometrix Applications Newsletter, 1997.

[157] T. Müller, M. Lohrmann, T. Kässer, O. Marti, J. Mlynek, and G. Krausch, “Frictional force between a sharp asperity and a surface step,” Physical Review Letters, vol. 79, pp. 5666–5669, 1997.

[158] O. Marti, “Instrumentation for scanning force microscopy and friction force microscopy,” in Macro- and Microtribology (B. Bhushan, ed.), vol. 330, pp. 17–34, Dordrecht: Kluwer Academic Publishers, 1997.

[159] O. Marti, S. Hild, J. Staud, A. Rosa, and B. Zink, “Nanomechanical interactions of scanning force microscope tips with polymer surfaces,” in Micro/Nanotribology and its applications (B. Bhushan, ed.), vol. E:330, pp. 455–465, Dordrecht: Kluwer Scientific Publishers, 1997.

[160] O. Marti, E. Weilandt, A. Rosa, J. Staud, B. Zink, I. Hörsch, R. Kusche, O. Kirschenhofer, and O. Hollricher, “Sffm and snom of heterogeneous materials,” in Chemical, Structural and Electronic Analysis of Heterogeneous Surfaces on Nanometer Scale(R. Rosei, ed.), vol. 333, pp. 25–41, Dordrecht: Kluwer Academic Publishers, 1997.

[161] T. Miyati, M. Horii, A. Rosa, M. Fujihira, and O. Marti, “Mapping of electrical double-layer force between tip and sample surfaces in water by pulsed-force-mode atomic force microscopy,” Applied Physics Letters, vol. 71, no. 18, pp. 2632–2634, 1997.

[162] W. Noell, M. Abraham, K. Mayr, A. Ruf, J. Barenz, O. Hollricher, O. Marti, and P. Güthner, “Micromachined aperture probe tip for multifunctional scanning probe microscopy,” Applied Physics Letters, vol. 70, no. 10, pp. 1236–1238, 1997.

[163] A. Rosa, H. Kilian, S. Hild, and O. Marti, “Pulsed scanning force microscopy on the surface of linear deformed, filler loaded rubber - a new method of investigation,” in International Rubber Conference, 1997.

[164] A. Rosa-Zeiser, E. Weilandt, S. Hild, and O. Marti, “The simultaneous measurement of elastic, electrostatic and adhesive properties by sfm: pulsed force mode operation,” Measurement Science and Technology, vol. 8, pp. 1333–1338, 1997.

[165] J. P. Spatz, S. Sheiko, M. Möller, R. G. Winkler, P. Reineker, and O. Marti, “Tapping scanning force microscopy in air - theory and experiment,” Langmuir, vol. 13, pp. 4699–4703, 1997.

[166] E. Weilandt, B. Zink, T. Stifter, and O. Marti, “Nanotribology in electrolytic environments,” in Micro/Nanotribology and its Applications (B. Bhushan, ed.), pp. 283– 297, Dordrecht: Kluwer Academic Publishers, 1997.

[167] J. Barenz, O. Hollricher, and O. Marti, “An easy-to-use non-optical shear-force distance control for near-field optical microscopes,” Review of Scientific Instruments, vol. 67, no. 5, pp. 1912–1916, 1996.

[168] J. Colchero, A. Bar, and O. Marti, “Energy dissipation in scanning force microscopy - friction on an atomic scale,” Tribology Letters, vol. 2, pp. 327–343, 1996.

[169] I. Hörsch, R. Kusche, O. Marti, B. Weigl, and K. Ebeling, “Spectrally resolved near-field mode imaging of vertical cavity semiconductor lasers,” Journal of Applied Physics, vol. 79, no. 8 Part 1, pp. 3831–3834, 1996.

[170] S. Hild and O. Marti, “Structural changes during stretching uniaxially oriented polypropylene film investigated by afm,” in Polymer Preprints, vol. 37.2, pp. 569– 570, ACS, 1996.

[171] M. Kamp, M. Mayer, A. Pelzmann, S. Menzel, H. Chung, H. Sternschulte, O. Marti, and K. Ebeling, “Nh3 as nitrogen source in mbe growth of gan,” Mat. Res. Soc. Symp. Proc., vol. 395, pp. 135–140, 1996. Gallium Nitride and Related Materials. First International Symposium. Boston, MA, USA. 27 Nov.-1 Dec. 1995.

[172] T. Müller, T. Kässer, M. Labardi, M. Lux-Steiner, O. Marti, J. Mlynek, and G. Krausch, “Scanning force and friction microscopy at highly oriented polycrystalline graphite and cup2(100) surfaces in ultrahigh vacuum,” Journal of Vacuum Science & Technology B, vol. 14, no. 2, pp. 1296–1301, 1996.

[173] O. Marti, “Transversale moden in laserdioden,” Physikalische Blätter, vol. 52, pp. 1132–1133, 1996.

[174] O. Marti and J. Mlynek, “Reibungsmikroskopie als neuer weg: Vorstoss in die nanowelt,” DFG-Nachrichten, vol. 1/96, pp. 11–12, 1996.

[175] O. Marti and J. Mlynek, “Friction microscopy as a new way - novel methods involve incursion into the nano range,” German Research, vol. 3/96, pp. 28–29, 1996.

[176] A. Rosa, S. Hild, and O. Marti, “Deformation induced changes in surface properties of natural rubber,” in Polymer Preprints, vol. 37.2, pp. 616–617, ACS, 1996.

[177] R. Winkler, J. Spatz, S. Sheiko, M. Moller, P. Reineker, and O. Marti, “Imaging material properties by resonant tapping-force microscopy: A model investigation,” Physical Review B Condensed Matter, vol. 54, no. 12, pp. 8908–8912, 1996.

[178] J. Burger, M. Binggeli, R. Christoph, H. Hintermann, and O. Marti, “Nanotribology and chemical sensitivity on a nanometer scale,” in Forces in Scanning Probe Methods (H. Güntherodt, D. Anselmetti, and E. Meyer, eds.), vol. 286, pp. 325–330, Dordrecht: Kluwer, 1995.

[179] J. Colchero, O. Marti, and J. Mlynek, “Friction on an atomic scale,” in Forces in Scanning Probe Methods (H. Güntherodt, D. Anselmetti, and E. Meyer, eds.), vol. E:286 of Nato ASI Series, pp. 345–352, Dordrecht: Kluwer, 1995.

[180] I. Hörsch, R. Kusche, O. Hollricher, O. Kirschenhofer, O. Marti, R. Sieber, G. Krausch, and J. Mlynek, “A stand-alone scanning near-field optical microscope,” in Photons and Local Probes (O. Marti and R. Möller, eds.), vol. E 300, pp. 139–144, Dordrecht Boston London: Kluwer Academic Publishers, 1995.

[181] M. Hipp, J. Mertz, J. Mlynek, and O. Marti, “Optical near-field imaging by force microscopy,” in Photons and Local Probes (O. Marti and R. Möller, eds.), vol. E 300, pp. 109–122, Dordrecht, Netherlands: Kluwer Academic Publishers, 1995.

[182] G. Krausch, M. Hipp, M. Boeltau, O. Marti, and J. Mlynek, “High-resolution imaging of polymer surfaces with chemical sensitivity,” Macromolecules, vol. 28, no. 1, pp. 260–3, 1995.

[183] O. Marti and J. Colchero, “Scanning probe microscopy instrumentation,” in Forces in Scanning Probe Methods (H. Güntherodt, D. Anselmetti, and E. Meyer, eds.), vol. E:286, pp. 15–34, Dordrecht: Kluwer Academic Publishers, 1995.

[184] O. Marti and G. Krausch, “Nahfeldoptik mit fast-atomarer auflösung?,” Physikalische Blätter, vol. 51, pp. 493–496, 1995.

[185] P. Niedermann, J. Burger, M. Binggeli, R. Christoph, H. Hintermann, and O. Marti, “A scanning force and friction microscope,” in Ultimate Limits of Fabrication & Measurement, Proceedings of the NATO Advanced Research Workshop on ”Ultimate Limits of Fabrication & Measurement”, Cambridge, April 1-3 (1994) (M. E. Welland and J. K. Gimzewski, eds.), vol. 292, Kluwer Academic Publishers, 1995.

[186] J. P. Spatz, S. Sheiko, M. Möller, R. G. Winkler, P. Reineker, and O. Marti, “Forces affecting the substrate in resonant tapping force microscopy,” Nanotechnology, vol. 6, pp. 40–44, 1995.

[187] W. Straub, F. Bruder, R. Brenn, G. Krausch, H. Bielefeldt, A. Kirsch, O. Marti, J. Mlynek, and J. Marko, “Transient wetting and 2d spinodal decomposition in a binary polymer blend,” Europhysics Letters, vol. 29, no. 5, pp. 353–358, 1995.

[188] E. Weilandt, A. Menck, M. Binggeli, and O. Marti, “Friction force measurements on graphite steps under potential control,” in Electrochemistry (A. Gewirth and

H. Siegenthaler, eds.), vol. E:288, pp. 307–315, Doordrecht: Kluwer, 1995.

[189] E. Weilandt, A. Menck, and O. Marti, “Friction studies at steps with friction force microscopy,” Surf.Interface Anal., vol. 23, pp. 428–430, 1995.

[190] O. Marti and R. Möller, eds., Photons and Local Probes, vol. E:300 of NATO ASI Series. Dordrecht: Kluwer Scientific Publishers, 1995.

[191] H. Bielefeldt, I. Hörsch, G. Krausch, M. Lux-Steiner, J. Mlynek, and O. Marti, “Reflection-scanning near-field optical microscopy and spectroscopy of opaque samples,” Applied Physics A (Solids and Surfaces), vol. A59, no. 2, pp. 103–108, 1994.

[192] J. Burger, G. Dietler, M. Binggeli, R. Christoph, and O. Marti, “Aspects of the surface roughness of ceramic bonding tools on a nanometer scale investigated with atomic force microscopy,” Thin.Solid.Films., vol. 253, pp. 308–310, 1994.

[193] M. Hipp, J. Mertz, O. Marti, and J. Mlynek, “Near-field imaging and simultaneous charge detection with a semiconductor probe tip,” in Proceedings EQEC’94., 1994.

[194] M. Hipp, J. Mertz, J. Mlynek, and O. Marti, “Near-field microscopy with a semiconductor probe tip,” IQEC ’94. Summaries of papers presented at the International Quantum Electronics Conference. Vol.9. 1994 Technical Digest Series Conference Edition (Cat. No.94CH3462-9). Opt. Soc. America. 1994, vol. 9, pp. 205–6, 1994.

[195] T. Müller, U. Jäkle, G. Krausch, O. Marti, and J. Mlynek, “Rasterkraft- und Reibungsmikroskop für anwendungen im ultrahochvakuum,” 1994.

[196] O. Marti, “Scanning force and friction microscopy applied to organic and biological samples,” in Proceedings of ICEM’13, pp. 569–570, 1994.

[197] O. Marti, “Near field optical microscopy and spectroscopy,” in Digest CLEO/Europe 1994, p. 85, 1994.

[198] J. Mertz, M. Hipp, J. Mlynek, and O. Marti, “Optical near field imaging with a semiconductor probe tip,” Applied Physics Letters, vol. 64, pp. 2338–2340, 1994.

[199] E. Perrot, M. Dayez, A. Humbert, O. Marti, C. Chapon, and C. Henry, “Atomic- scale resolution on the mgo(100) surface by scanning force and friction microscopy,” Europhysics Letters, vol. 26, no. 9, pp. 659–663, 1994.

[200] H. J. Apell, J. Colchero, A. Linder, and O. Marti, “Investigation of the sodium, potassium atpase by sfm,” in STM and SFM in Biology (O. Marti and M. Amrein, eds.), pp. 275–308, San Diego: Academic Press, 1993.

[201] H. Bielefeldt, B. Hecht, S. Herminghaus, O. Marti, and J. Mlynek, “Direct measurement by scanning tunneling optical microscopy of the field enhancement caused by surface plasmons,” in Near Field Optics (D. Courjon and D. Pohl, eds.), vol. 242, pp. 281–286, Dordrecht: Kluwer, 1993.

[202] M. Binggeli, R. Christoph, H. E. Hintermann, and O. Marti, “Atomic scale tribometer for friction studies in controlled atmosphere,” Surface and Coatings Technology, vol. 62, pp. 523–528, 1993.

[203] M. Binggeli, R. Christoph, H.-E. Hintermann, J. Colchero, and O. Marti, “Friction force measurements on potential controlled graphite in electrolytic environment,” Nanotechnology, vol. 4, pp. 59–63, 1993.

[204] O. Marti, “Scanning probe microscopy: an introduction,” in STM and SFM in Biology (O. Marti and M. Amrein, eds.), pp. 1–143, San Diego: Academic Press, 1993.

[205] O. Marti, “Nanotribology: Friction on a Nanometer Scale,” Physica Scripta, vol. T49B, pp. 599–604, 1993.

[206] O. Marti, “Friction and measurement of friction on a nanometer scale,” Surface and Coatings Technology, vol. 62, pp. 510–516, 1993.

[207] O. Marti and V. Balykin, “Light forces,” in Near Field Optics (D. Courjon and D. Pohl, eds.), vol. 242, pp. 121–130, Dordrecht: Kluwer, 1993.

[208] O. Marti, H. Bielefeldt, S. Herminghaus, P. Leiderer, and J. Mlynek, “Near field optical measurement of the surface plasmon field,” Optics Communications, vol. 96, pp. 225–228, 1993.

[209] O. Marti, J. Colchero, H. Bielefeldt, M. Hipp, and A. Linder, “Scanning probe microscopy: Applications in biology and physics,” Microsc.Microanal.Microstruct., vol. 4, no. 5, pp. 429–440, 1993.

[210] O. Marti, J. Colchero, and J. Mlynek, “Friction and forces on an atomic scale,” in Nanosources and Manipulations of Atoms under High Fields and Temperatures: Applications (V. T. Binh, N. Garca, and K. Dransfeld, eds.), vol. E 235, pp. 253–269, Dordrecht, The Netherlands: Kluwer Academic Publishers, 1993.

[211] J. Mertz, O. Marti, and J. Mlynek, “Regulation of a microcantilever response by active control,” Applied Physics Letters, vol. 62, pp. 2344–2346, 1993.

[212] O. Marti and M. Amrein, eds., STM and SFM in Biology. San Diego: Academic Press, 1993.

[213] H.-J. Apell, J. Colchero, A. Linder, O. Marti, and J. Mlynek, “Na,k-atpase in crystalline form investigated by scanning force microscopy,” Ultramicroscopy, vol. 42-44, pp. 1133–1140, 1992.

[214] J. Colchero, O. Marti, H. Bielefeldt, and J. Mlynek, “Scanning force and friction microscopy,” Physica Status Solidi A, vol. 131, no. 1, pp. 73–75, 1992. Vortrag: Chemnitz.

[215] M. Hipp, H. Bielefeldt, J. Colchero, O. Marti, and J. Mlynek, “A stand-alone scanning force and friction microscope,” Ultramicroscopy, vol. 42-44, pp. 1498–1503, 1992.

[216] A. Linder, J. Colchero, H.-J. Apell, O. Marti, and J. Mlynek, “Scanning force microscopy of diatom shells,” Ultramicroscopy, vol. 42-44, pp. 329–332, 1992.

[217] O. Marti and J. Colchero, “Reibungsmikroskopie,” Physikalischen Blätter, vol. 12, pp. 1007–1009, 1992.

[218] O. Marti, A. Ruf, M. Hipp, H. Bielefeldt, J. Colchero, and J. Mlynek, “Mechanical and thermal effects on force microscope cantilevers,” Ultramicroscopy, vol. 42-44, p. 345, 1992.

[219] J. Colchero, O. Marti, J. Mlynek, A. Humbert, C. R. Henry, and C. Chapon, “Palladium clusters on mica: A study by atomic force microscopy,” Journal of Vacuum Science & Technology B (Microelectronics Processing and Phenomena), vol. 9, no. 2, pp. 794–797, 1991.

[220] O. Marti, “Kraftmikroskopie: Grundlagen und anwendungen in biologie und physik.” Habilitationsschrift, 1991.

[221] J. Colchero, O. Marti, and J. Mlynek, “Ein kompaktes kraftmikroskop aufgebaut mit laserdiode und positionsempfindlicher photodiode mit atomarer auflösung,” Helvetica Physica Acta, vol. 63, pp. 491–492, 1990.

[222] P. Hansma, R. Sonnenfeld, J. Schneir, O. Marti, S. Gould, C. Prater, A. Weisenhorn, B. Drake, H. Hansma, G. Slough, W. McNairy, and R. Coleman, “Scanning probe microscopy of liquid- solid interfaces,” in Scanning Tunneling Microscopy and Related Methods (R. J. Behm, N. Garca, and H. Rohrer, eds.), vol. E 184, pp. 299– 313, Kluwer Academic Publisher, 1990.

[223] O. Marti, J. Colchero, and J. Mlynek, “Combined scanning force and friction microscopy of mica,” Nanotechnology, vol. 1, no. 2, pp. 141–144, 1990.

[224] S. Alexander, L. Hellemans, O. Marti, J. Schneir, V. Elings, P. K. Hansma, M. Longmire, and J. Gurley, “An atomic-resolution atomic-force microscope implemented using an optical lever,” Journal of Applied Physics, vol. 65, no. 1, pp. 164–7, 1989.

[225] M. S. d. Capua and O. Marti, “Nato advanced study institute on scanning tunneling microscopy (stm) - physical concepts, related techniques, and major applications,” ESNIB, vol. 89, no. 09, pp. 49–62, 1989.

[226] P. K. Hansma, B. Drake, O. Marti, S. Gould, and C. Prater, “The scanning ion- conductance microscope,” Science, vol. 243, pp. 641–643, 1989.

[227] O. Marti, V. Elings, M. Haugan, C. Bracker, J. Schneir, B. Drake, S. Gould, J. Gurley, L. Hellemans, K. Shaw, A. Weisenhorn, J. Zasadzinski, and P. Hansma, “Scanning probe microscopy of biological samples and other surfaces,” Journal of Microscopy, vol. 152, no. 3, pp. 803–809, 1989.

[228] S. Gould, O. Marti, B. Drake, L. Hellemans, C. E. Bracker, P. K. Hansma, N. L. Keder, M. M. Eddy, and G. D. Stucky, “Molecular resolution images of amino acid crystals with the atomic force microscope,” Nature, vol. 332, pp. 332–334, 1988.

[229] P. Hansma, V. Elings, O. Marti, and C. Bracker, “Scanning tunneling microscopy and atomic force microscopy: application to biology and technology,” Science, vol. 242, pp. 209–216, 1988.

[230] O. Marti, B. Drake, S. Gould, and P. Hansma, “Atomic resolution atomic force microscopy of graphite and the ’native oxide’ on silicon,” Journal of Vacuum Science& Technology A, vol. 6, pp. 287–290, 1988.

[231] O. Marti, B. Drake, S. Gould, and P. Hansma, “Atomic force microscopy and scanning tunneling microscopy with a combination atomic force microscope/scanning tunneling microscope,” Journal of Vacuum Science & Technology A, vol. 6, no. 3, pp. 2089–2092, 1988. zitiewrt von 0.

[232] O. Marti, B. Drake, S. Gould, and P. K. Hansma, “Probing surfaces with the atomic force microscope,” Proceedings of the SPIE - The International Society for Optical Engineering, vol. 897, pp. 22–25, 1988.

[233] O. Marti, S. Gould, and P. K. Hansma, “Control electronics for atomic force microscopy,” Review of Scientic Instruments, vol. 59, no. 6, pp. 836–839, 1988.

[234] O. Marti, H. O. Ribi, B. Drake, T. Albrecht, C. F. Quate, and P. K. Hansma, “Atomic force microscopy of an organic monolayer,” Science, vol. 239, no. 4835, pp. 50–52, 1988.

[235] J. Schneir, O. Marti, G. Remmers, D. Gläser, R. Sonnenfeld, B. Drake, P. Hansma, and V. Elings, “Scanning tunneling microscopy and atomic force microscopy of the liquid-solid interface,” Journal of Vacuum Science & Technology A, vol. 6, pp. 283– 286, 1988.

[236] J. Schneir, R. Sonnenfeld, O. Marti, P. Hansma, J. Demuth, and R. Hamers, “Tunneling microscopy, lithography, and surface diffusion on an easily prepared, atomically flat gold surface,” Journal of Applied Physics, vol. 63, no. 3, pp. 717–721, 1988.

[237] O. Marti, Scanning tunneling microscope at low temperatures. PhD thesis, ETH (Federal Institute of Technology), Zürich, Switzerland, 1987.

[238] O. Marti, G. Binnig, H. Rohrer, and H. Salemink, “Low-temperature scanning tunneling microscope,” Surface Science, vol. 181, pp. 230–234, 1987.

[239] O. Marti, B. Drake, and P. K. Hansma, “Atomic force microscopy of liquid- covered surfaces: Atomic resolution images,” Applied Physics Letters, vol. 51, no. 7, pp. 484– 486, 1987.

[240] O. Marti, B. Drake, and P. K. Hansma, “Atomic force microscopy of liquid-covered surfaces: atomic resolution images,” in Abstracts of Papers of the American Chemical Society, University of California, Santa Barbara, 1987.

[241] E. P. Stoll and O. Marti, “Restoration of scanning-tunneling microscope data blurred by limited resolution, and hapered by 1/f like noise,” Surface Science, vol. 181, p. 222, 1987.

[242] C. Gerber, G. Binnig, H. Fuchs, O. Marti, and H. Rohrer, “Scanning tunneling microscope combined with a scanning electron microscope,” Review of Scientific Instruments, vol. 57, pp. 221–224, 1986.

[243] C. Gerber and O. Marti, “Magnetostrictive positionner,” IBM Technical Disclosure Bulletin, vol. 27, p. 6373, 1985.

[244] G. Binnig, C. Gerber, and O. Marti, “Sound and vibration insulation for sensitive apparatus,” IBM Technical Disclosure Bulletin, vol. 27, no. 5, p. 3137, 1984.

[245] H. Ott, O. Marti, and F. Hulliger, “Low temperature thermal conductivity of CeAl3,” Solid State Communications, vol. 49, pp. 1129–1131, 1984.

[246] O. Marti, “Wärmeleitungsmessungen an verbindungen mit seltenen erden,” diplomarbeit, Eidgenössische Technische Hochschule, Laboratorium für Festkörperphysik, 1983. unter der Leitung von -Prof. Dr. J. L. Olsen, Dr. H. R. Ott und Dr. W. Odoni.

(O. Marti) Experimentelle Physik, Universität Ulm, 89081 Ulm, Deutschland E-mail address: Othmar Marti: