Research Areas
- Nanoscience, Nanotechnology
- Scanning probes
- Self oganized systems, Nanobiotechnology
- Theory of tip/sample interactions
CV
Education
- Graduation as Dr. rer. nat. in Physics, University of Saarbrücken (Prof. Dr. H. Gleiter, Nanocrystaline Systems)
- Studies of Physics, University of Saarbrücken (Prof. Dr. G. Meißner, Theoretical Physics)
Positions
- Director of the Physical Institute, WWU Münster
- University Professor (C4), WWU Münster
- Guest Professorship at the Intl. Faculty, at GIST/WCU, Gwangju South Korea
- Guest Professorship at the Tsinghua University, Beijing
- Guest Professorship at the Zhejiang University, Hangzhou
- Speaker, BMBF-Competence-Center "Nanoanalytics"
- Managing Director of the Physical Institute
- Guest Professorship at the Jilin University, Changchun
- Dekan des Fachbereichs Physik
- Industrial Research, BASF AG, Project Manager: Ultrathin Organic Films
- Postdoctoral Fellowship, IBM Rüschlikon, STM Group (Binnig/Rohrer)
- Staff member at the Institut für Werkstoffphysik
- Staff member, Membrane Research, SFB 38, Medical Department, II. Physiological Institute, University of Saarbrücken
Honors
- International Science and Technology Cooperation Award of the People's Republic of China – People's Republic of China
- Friendship Award – The People's Republic of China
- Honorary professorship of the Nanjing Tech University – Nanjing Tech University, Nanjing (China)
- Place of Innovation – Federal Ministry of Innovation, Science and Research of North-Rhine-Westfalia
- Emich-Plakette – Austrian Society of Analytical Chemistry (ASAC)
- Officer's Cross of Merit of the Federal Republic of Germany – The President of the Federal Republic of Germany
- Member of the National Academy of Science and Engineering – acatech - National Academy of Science and Engineering
- Member of the German National Academy of Sciences Leopoldina – German National Academy of Sciences Leopoldina
- Philip Morris Research Award – Philip Morris Foundation
External Functions
- Elected associate member of TWAS
- Sprecher TRR 61 (DFG/NSFC) 'Multilevel Molecular Assemblies: Structure, Dynamics and Function'
- Elected Member of the German Academy of Science and Engineering (acatech)
- Berufung in das Direktorium des Instituts für Nanotechnologie (INT) im Forschungszentrum Karlsruhe (FZK)
- Scientific Director of the Center for NanoTechnology (CeNTech)
- Elected member of the Deutsche Akademie für Naturforscher Leopoldina
- Mitglied Deutsche Physikalische Gesellschaft
- Mitglied der Bunsengesellschaft
- Mitglied im Dechema - Arbeitsausschuss 'Chemische Nanotechnologie'
Projects
- CRC 858 - Synergetic Effects in Chemistry - From Additivity towards Cooperativity ( – )
Main DFG-project hosted at WWU: DFG - Collaborative Research Centre | Project Number: SFB 858/3 - Quantitative High-Resolution Atomic Force Microscopy of Organic Compounds with Copper-Oxide Functionalized Tips ( – )
Individual project: DFG - Individual Grants Programme | Project Number: FU 299/19-1; MO 2345/4-1 - Functional optimization by control of the electronic and structural properties of organic molecules on surfaces studied by scanning tunneling microscopy ( – )
Individual project: DFG - Individual Grants Programme | Project Number: FU 299/18-1; AM 460/2-1 - Patterned organic molecular architecture by vacuum deposition ( – )
Individual project: DFG - Individual Grants Programme | Project Number: STU 280/22-1; FU 299/17-1 - SFB 858 – CRC 858 B02 - 2D Reactions at Surfaces ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: INST 211/512-1:1 - SFB TRR 61 – CRC TRR 61 - Multilevel Molecular Assemblies: Structure, Dynamics and Function (2nd funding period) ( – )
Main DFG-project hosted at WWU: DFG - Collaborative Research Centre | Project Number: TRR 61/2 - CRC TRR 61 B07 - Characterization of functional organic thin films by high resolution atomic force microscopy ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: TRR 61/2 B07 - CRC TRR 61 B03 - Electronic and electro-optical properties of functional organic molecules on surfaces studied by scanning tunneling microscopy/spectroscopy (STM/STS) ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: TRR 61/2 B03 - CRC TRR 61 Z01 - Project Management ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: TRR 61/2 Z01 - DiaNa – Diagnostic in early inflammation: Application of Nanotechnology ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 01DR13007 - MINAC – Chinakooperation-Verbundprojekt: Mechanismen der Interaktion von Nanostrukturen und Zellen (MINAC) ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 0315773A - MICROCARE – Microsystems and Bioanalysis Platforms for Health Care ( – )
EU-project hosted outside WWU: EC FP 7 - Marie Curie Actions - International Research Staff Exchange Scheme | Project Number: 247641 - Edge plasmon mediated tip enhanced spectroscopy ( – )
Individual project: DFG - Individual Grants Programme | Project Number: FI 608/13-1; 580652 - Scanning Force Microscopy for the investigation of fibroblasts ()
Individual project: DFG - Initiation of International Collaboration | Project Number: FU 299/16-1 - JINBiT – Gründungsvorbereitung für ein virtuelles "Joint Institute für NanoBio-Technology": JINBiT ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 01DR12022; KOR 10/805 - CRC TRR 61 B07 - Characterization of epitaxially assembled multi-layers of functional organic molecules by atomic force microscopy ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: INST 211/457-1:2 - CRC TRR 61 B03 - Electronic and electro-optical properties of functional organic molecules on surfaces studied by scanning tunnelling microscopy/spectroscopy (STM/STS) ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: INST 211/453-1:2 - SFB TRR 61 – CRC TRR 61 - Multilevel Molecular Assemblies: Structure, Dynamics and Function (1st funding period) ( – )
Main DFG-project hosted at WWU: DFG - Collaborative Research Centre | Project Number: TRR 61/1 - CRC TRR 61 Z01 - Project Management ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: INST 211/467-1 - AGeNT-D – Machbarkeitsstudien im Rahmen der Arbeitsgemeinschaft der Nanotechnologie-Kompetenzzentren in der Bundesrepublik Deutschland AGeNT-D ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 13N9210 - Lipid-DPN – Lipid Dip-Pen Nanolithography for Model Bio-Membrane ( – )
Individual project: DFG - Individual Grants Programme | Project Number: FU 299/14-1 - NANOMATCH – Nanomatch - Supramolecular Nanostructured Organic/Inorganic Hybrid Systems ( – )
EU-project hosted outside WWU: EC FP 6 - Marie Curie Actions - Research Training Networks | Project Number: 35884 - Nano-Biocomp – Biocompatibility of nanoparticels for medical engineering, diagnostics and therapy (Nano-Biocomp) ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 0312025A - Bio-inspired dye assemblies for supramolecular electronics ( – )
Individual project: VolkswagenStiftung | Project Number: I/82 090 - INDia – Verbundvorhaben: Nanochemische Strukturen für die Diagnostik - Teilprojekt: Neue intelligente nanochemische Strukturen für die hochsensitive Diagnostik ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 03X0015C - FRONTIERS – NoE Research and facilities directed at instrumentation for manufacturing and analysis of single molecules and individual nanoclusters, targeted at life sciences ( – )
EU-project hosted outside WWU: EC FP 6 - Networks of Excellence | Project Number: 500328 - SFB 424 B01 - Ordnungsphänomene und ihre Modellierung in funktionalen organisch/anorganischen Grenzflächen ( – )
Subproject in DFG-joint project hosted at WWU: DFG - Collaborative Research Centre | Project Number: SFB 424 -97 - NANO2LIFE – A network for bringing NANOtechnologies TO LIFE ( – )
EU-project hosted outside WWU: EC FP 6 - Networks of Excellence | Project Number: 500057 - Patchpanel – Adressierung von Nanoarrays mit elektrooptischen MST-Kodiersystemen - Patchpanel - ( – )
Participation in BMBF-joint project: Federal Ministry of Education and Research | Project Number: 16SV3553 - ASPRINT – Advanced Scanning Probes for Innovative Nanoscience and Technology ( – )
EU-project hosted outside WWU: EC FP 6 - Specific Targeted Research Projects | Project Number: 1601 - STRESSMOL – Stress-controlled molecular-electronics ( – )
Individual project: VolkswagenStiftung | Project Number: I/78 830 - Bioinspirierte Entwicklung und Erprobung von strukturierten abbaubaren Biopolymerkompositen für ein gezieltes Hartgewebsengineering ( – )
Individual project: DFG - Individual Grants Programme | Project Number: WI 1769/1-2
- CRC 858 - Synergetic Effects in Chemistry - From Additivity towards Cooperativity ( – )
Publications
- . . ‘Azo bond formation on metal surfaces.’ Angewandte Chemie International Edition 60, No. 3: 1458–1464. doi: 10.1002/anie.202011858.
- . . ‘Lithography Compatible, Flexible Micro-Organic Light-Emitting Diodes by Template-Directed Growth.’ Small Methods 3, No. 3: 1800508. doi: 10.1002/smtd.201800508.
- . . ‘Positioning growth of NPB crystalline nanowires on the PTCDA nanocrystal template.’ Nanoscale 10: 10262–10267. doi: 10.1039/C8NR02085J.
- . ‘Modification of the Potential Landscape of Molecular Rotors on Au(111) by the Presence of an STM Tip.’ Nano Letters . doi: 10.1021/acs.nanolett.8b01019.
- . ‘Quantitative assessment of intermolecular interactions by atomic force microscopy imaging using copper oxide tips.’ Nature Nanotechnology 13, No. 5: 371–375. doi: 10.1038/s41565-018-0104-4.
- . ‘Toward Tunable Electroluminescent Devices by Correlating Function and Submolecular Structure in 3D Crystals, 2D-Confined Monolayers, and Dimers.’ ACS Applied Materials and Interfaces 10, No. 26: 22460–22473. doi: 10.1021/acsami.8b03528.
- . . ‘Micro organic light-emitting diodes fabricated through area-selective growth.’ Materials Chemistry Frontiers 1: 2606–2612. doi: 10.1039/C7QM00383H.
- . . ‘Tunable control efficiency of patterned nucleation by post-annealing.’ Journal of Materials Chemistry C 5: 6672–6676. doi: 10.1039/C7TC01802A.
- . ‘Intermolecular On-Surface σ-Bond Metathesis.’ Journal of the American Chemical Society 139, No. 20: 7012–7019. doi: 10.1021/jacs.7b02430.
- . ‘Formation of Organometallic Intermediate States in On-Surface Ullmann Couplings.’ Chemistry - A European Journal 23, No. 25: 6190–6197. doi: 10.1002/chem.201605802.
- . ‘Ballbot-type motion of N-heterocyclic carbenes on gold surfaces.’ Nature Chemistry 9: 152–156. doi: 10.1038/nchem.2622.
- . ‘Surface Polarity and Self-Structured Nanogrooves Collaboratively Oriented Molecular Packing for High Crystallinity toward Efficient Charge Transport.’ Journal of the American Chemical Society 139, No. 7: 2734–2740. doi: 10.1021/jacs.6b12153.
- . . ‘Substrate-Mediated C–C and C–H Coupling after Dehalogenation.’ Journal of the American Chemical Society 139, No. 10: 3669–3675. doi: 10.1021/jacs.6b10936.
- . . ‘Frontiers of on-surface synthesis: From principles to applications.’ Nano Today 13: 77 – 96. doi: 10.1016/j.nantod.2017.02.007.
- . . ‘Nanosphere Lithography for Sub-10-nm Nanogap Electrodes.’ Advanced Electronic Materials 3, No. 1: 1600348–n/a. doi: 10.1002/aelm.201600348.
- . . ‘Clickable Antifouling Polymer Brushes for Polymer Pen Lithography.’ ACS applied materials & interfaces 9, No. 13: 12109–12117. doi: 10.1021/acsami.7b01184.
- . . ‘Step-Edge Assisted Direct Linear Alkane Coupling.’ Chemistry - A European Journal 23, No. 25: 6185–6189. doi: 10.1002/chem.201605744.
- . . ‘Covalent-Bond Formation via On-Surface Chemistry.’ Chemistry - A European Journal 23, No. 25: 5874–5892. doi: 10.1002/chem.201604047.
- . ‘Branch Suppression and Orientation Control of Langmuir–Blodgett Patterning on Prestructured Surfaces.’ Advanced Materials Interfaces 3, No. 19: 1600478. doi: 10.1002/admi.201600478.
- . . ‘On the Coupling of Photon Spin to Electron Orbital Angular Momentum.’ arXiv e-prints 1609.05218: arXiv:1609.05218.
- . . ‘On-Surface Synthesis by Azide–Alkyne Cycloaddition Reactions on Metal Surfaces.’ In On-Surface Synthesis, edited by , 101–114. doi: 10.1007/978-3-319-26600-8_5.
- . . ‘Click-Chemistry Immobilized 3D-Infused Microarrays in Nanoporous Polymer Substrates.’ Advanced Materials Interfaces 3, No. 6. doi: 10.1002/admi.201500469.
- . . ‘Submolecular Imaging by Noncontact Atomic Force Microscopy with an Oxygen Atom Rigidly Connected to a Metallic Probe.’ ACS Nano 10, No. 1: 1201–1209. doi: 10.1021/acsnano.5b06513.
- . ‘Comparison of cellular effects of starch-coated SPIONs and poly(Lactic-co-glycolic acid) matrix nanoparticles on human monocytes.’ International journal of nanomedicine 11, No. null: 5221–5236. doi: 10.2147/IJN.S106540.
- . . ‘Poly(sodium-4-styrene sulfonate) (PSSNa)-assisted transferable flexible, top-contact high-resolution free-standing organic field-effect transistors.’ RSC Advances 5, No. 119: 98288–98292. doi: 10.1039/C5RA21329K.
- . . ‘A Versatile Microarray Platform for Capturing Rare Cells.’ Scientific Reports 5: 11pp. doi: 10.1038/srep15342.
- . . ‘International collaboration and science in China: a Western perspective.’ National Science Review 2, No. 2: 241–245. doi: 10.1093/nsr/nwv027.
- . . ‘Ultra-large scale AFM of lipid droplet arrays: investigating the ink transfer volume in dip pen nanolithography .’ Nanotechnology 26, No. 17: 7 pp. doi: 10.1088/0957-4484/26/17/175303.
- . . ‘Linear Alkane C¢C Bond Chemistry Mediated by Metal Surfaces .’ ChemPhysChem 16, No. 7: 1356–1360. doi: 10.1002/cphc.201500097.
- . . ‘On-Surface Synthesis of Rylene-Type Graphene Nanoribbons.’ Journal of the American Chemical Society 137, No. 12: 4022–4025. doi: 10.1021/ja511995r.
- . . ‘Stereoselective formation of coordination polymers with 1,4-diaminonaphthalene on various Cu substrates .’ Chemical communications 51, No. 54: 10854–10857. doi: 10.1039/C5CC03130C.
- . . ‘Enhanced Charge Injection Through Nanostructured Electrodes for Organic Field Effect Transistors.’ Advanced Functional Materials 25, No. 25: 3855–3859. doi: 10.1002/adfm.201500771.
- . . ‘Patterning of Quantum Dots by Dip-Pen and Polymer Pen Nanolithography .’ Nanofabrication 2, No. 1: 19–26. doi: 10.1515/nanofab-2015-0002.
- . . ‘On-surface reductive coupling of aldehydes on Au(111).’ Chemical communications 51, No. 23: 4887–4890. doi: 10.1039/C4CC09634G.
- . . ‘In-plane Van der Waals interactions of molecular self-assembly monolayer.’ Applied Physics Letters 106: 5 pp. doi: 10.1063/1.4907777.
- . . ‘Self-assembled monolayers of enantiomerically functionalized periodic mesoporous organosilicas and the effect of surfacechirality on cell adhesion behaviour.’ RSC Advances 5, No. 8: 5704–5710. doi: 10.1039/C4RA11451E.
- . . ‘Dip-Pen Nanolithography-Assisted Protein Crystallization.’ Journal of the American Chemical Society 137, No. 1: 154–157. doi: 10.1021/ja512141k.
- . . ‘Electron dynamics in unoccupied states of spatially aligned 7-a graphene nanoribbons on Au(788) .’ Physical Review B 90: 245408–5pp. doi: 10.1103/PhysRevB.90.245408.
- . . ‘Multifunctional Superamphiphobic TiO 2 Nanostructure Surfaces with Facile Wettability and Adhesion Engineering .’ Small 10, No. 23: 4865–4873. doi: 10.1002/smll.201470145.
- . . ‘Patterning rubrene crystalline thin films for sub-micrometer channel length field-effect transistor arrays .’ Journal of Materials Chemistry C 2, No. 44: 9359–9363. doi: 10.1039/C4TC01590H.
- . . ‘Surface Microfluidic Patterning and Transporting Organic Small Molecules .’ Small 10, No. 13: 2549–2552. doi: 10.1002/smll.201400360.
- . . ‘Large-Scale Parallel Surface Functionalization of Goblet-type Whispering Gallery Mode Microcavity Arrays for Biosensing Applications .’ Small 10, No. 19: 3863–3868. doi: 10.1002/smll.201470121.
- . . ‘Near-field photochemical and radiation-induced chemical fabrication of nanopatterns of a self-assembled silane monolayer .’ Beilstein Journal of Nanotechnology 5: 1441–1449. doi: 10.3762/bjnano.5.156.
- . . ‘Decarboxylative Polymerization of 2,6-Naphthalenedicarboxylic Acid at Surfaces.’ Journal of the American Chemical Society 136, No. 27: 9658–9663. doi: 10.1021/ja5033875.
- . . ‘Influence of Contact Aging on Nanoparticle Friction Kinetics.’ Physical Review Letters 112: 155503–155508. doi: 10.1103/PhysRevLett.112.155503.
- . . ‘Surface Supported Gold–Organic Hybrids: On-Surface Synthesis and Surface Directed Orientation .’ Small 10, No. 7: 1361–1368. doi: 10.1002/smll.201303011.
- . . ‘Localization and Dynamics of Glucocorticoid Receptor at the Plasma Membrane of Activated Mast Cells .’ Small 10, No. 10: 1991–1998. doi: 10.1002/smll.201303677.
- . . ‘Tunable Organic Hetero-Patterns via Molecule Diffusion Control .’ Small 10, No. 15: 3045–3049. doi: 10.1002/smll.201303400.
- . . ‘Selective binding of oligonucleotide on TiO2 surfaces modified by swift heavy ion beam lithography .’ Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 339: 67–74. doi: 10.1016/j.nimb.2014.02.134.
- . . ‘Long Jumps of an Organic Molecule Induced by Atomic Force Microscopy Manipulation.’ Advanced Materials Interfaces 1, No. 2: pp7. doi: 10.1002/admi.201300013.
- . . ‘Calibration of quartz tuning fork spring constants for non-contact atomic force microscopy: direct mechanical measurements and simulations .’ Beilstein Journal of Nanotechnology 5: 507–516. doi: 10.3762/bjnano.5.59.
- . . ‘Influence of the adsorption geometry of PTCDA on Ag(111) on the tip–molecule forces in non-contact atomic force microscopy.’ Beilstein Journal of Nanotechnology 5: 98–104. doi: 10.3762/bjnano.5.9.
- . . ‘Photochemical Glaser Coupling at Metal Surfaces.’ Journal of Physical Chemistry C 118, No. 12: 6272–6277. doi: 10.1021/jp411889e.
- . . ‘Click-Chemistry Based Multi-Component Microarrays by Quill-Like Pens.’ Advanced Materials Interfaces 1, No. 3: 7pp. doi: 10.1002/admi.201300129.
- . . ‘Heat Induced Passivation of CuInSe2 Surfaces: A Strategy to Optimize the Efficiency of Chalcopyrite Thin Film Solar Cells?’ Advanced Materials Interfaces 1, No. 2: 7pp. doi: 10.1002/admi.201300040.
- . . ‘Growth of rubrene crystalline thin films using thermal annealing on DPPC LB monolayers .’ Organic Electronics 14, No. 10: 2534–2539. doi: 10.1016/j.orgel.2013.06.006.
- . . ‘Bioinspired TiO2 Nanostructure Films with Special Wettability and Adhesion for Droplets Manipulation and Patterning.’ Scientific Reports 3: 8pp. doi: 10.1038/srep03009.
- . . ‘Effect of Metal Surfaces in On-Surface Glaser Coupling.’ Journal of Physical Chemistry C 117, No. 36: 18595–18602. doi: 10.1021/jp406858p.
- . . ‘Scaling Laws of Structural Lubricity.’ Physical Review Letters 111, No. 23: 235502. doi: 10.1103/PhysRevLett.111.235502.
- . . ‘Growth of Ultrathin Organic Semiconductor Microstripes with Thickness Control in the Monolayer Precision.’ Angewandte Chemie International Edition 52, No. 48: 12530–12535. doi: 10.1002/anie.201306953.
- . . ‘Multiplexed biomimetic lipid membranes on graphene by dip-pen nanolithography .’ Nature Communications 4: pp 8. doi: 10.1038/ncomms3591.
- . . ‘On-Surface Azide-Alkyne Cycloaddition on Au(111).’ ACS Nano 7, No. 10: 8509–8515. doi: 10.1021/nn4022789.
- . . ‘High Performance Field-Effect Ammonia Sensors Based on a Structured Ultrathin Organic Semiconductor Film .’ Advanced Materials 25, No. 25: 3419–3425. doi: 10.1002/adma.201301138.
- . . ‘Cellular interactions of doxorubicin-loaded DNA-modified halloysite nanotubes.’ Nanoscale 5, No. 18: 8577–8585. doi: 10.1039/c3nr02665e.
- . . ‘Addressable Organic Structure by Anisotropic Wetting.’ Advanced Materials 25, No. 14: 2018–2023. doi: 10.1002/adma.201204475.
- . . ‘On-chip microlasers for biomolecular detection via highly localized deposition of a multifunctional phospholipid ink.’ Lab on a Chip 13, No. 14: 2701–2707. doi: 10.1039/c3lc50149c.
- . . ‘Bioinspired Patterning with Extreme Wettability Contrast on TiO2 Nanotube Array Surface: A Versatile Platform for Biomedical Applications .’ Small 9, No. 17: 2945–2953. doi: 10.1002/smll.201300187.
- . . ‘In Situ Surface-Modification-Induced Superhydrophobic Patterns with Reversible Wettability and Adhesion .’ Advanced Materials 25, No. 12: 1682–1686. doi: 10.1002/adma.201203797.
- . . ‘Interdigitated Multicolored Bioink Micropatterns by Multiplexed Polymer Pen Lithography.’ Small 9, No. 19: 3266–3275. doi: 10.1002/smll.201203183.
- . . ‘Field ion microscopy characterized tips in noncontact atomic force microscopy: Quantification of long-range force interactions .’ Physical Review B 87, No. 11: 115412–9pp. doi: 10.1103/PhysRevB.87.115412.
- . . ‘AFM-based Force Spectroscopy on Polystyrene Brushes: Effect of Brush Thickness on Protein Adsorption.’ Langmuir 29, No. 6: 1850–1856. doi: 10.1021/la302212h.
- . . ‘Glaser Coupling at Metal Surfaces.’ Angewandte Chemie International Edition 52, No. 14: 4024–4028. doi: 10.1002/anie.201208597.
- . . ‘Selective deposition of organic molecules onto DPPC templates-a molecular dynamics study.’ Journal of Colloid and Interface Science 389, No. 1: 206–212. doi: 10.1016/j.jcis.2012.09.024.
- . . ‘Forces During the Controlled Displacement of Organic Molecules .’ Physical Review Letters 110, No. 3: 036101–5pp. doi: 10.1103/PhysRevLett.110.036101.
- . . ‘TRR 61, The “Interplay” between Münster and Beijing for Promoting Research on Multilevel Molecular Assemblies: Structure, Dynamics, and Functions .’ Small 8, No. 4: 479–480. doi: 10.1002/smll.201200023.
- . . ‘Linden etal. Reply: Reply to a comment by Huang.’ Physical Review Letters 109, No. 11: 119702. doi: 10.1103/PhysRevLett.109.119702.
- . . ‘New Approaches for Bottom-Up Assembly of Tobacco Mosaic Virus- Derived Nucleoprotein Tubes on Defined Patterns on Silica- and Polymer-Based Substrates .’ Langmuir 28, No. 42: 14867–14877. doi: 10.1021/la302774h.
- . . ‘Convergence of Dip-Pen Nanolithography and acoustic biosensors towards a rapid-analysis multi-sample microsystem.’ Analyst 137, No. 13: 3076–3082. doi: 10.1039/c2an35156k.
- . . ‘The Electrode's Effect on the Stability of Organic Transistors and Circuits .’ Advanced Materials 24, No. 22: 3053–3058. doi: 10.1002/adma.201200792.
- . . ‘Synthesis and Solid-State Investigations of Oligo-Phenylene-Ethynylene Structures with Halide End-Groups .’ European Journal of Organic Chemistry 2012, No. 14: 2738–2747. doi: 10.1002/ejoc.201200033.
- . . ‘High Performance and Stable Organic Transistors and Circuits with Patterned Polypyrrole Electrodes.’ Advanced Materials 24, No. 16: 2159–2164. doi: 10.1002/adma.201104343.
- . . ‘Growth of large-size-two-dimensional crystalline pentacene grains for high performance organic thin film transistors .’ AIP Advances 2, No. 2: 022138. doi: 10.1063/1.4723851.
- . . ‘Biosupramolecular Nanowires from Chlorophyll Dyes with Exceptional Charge-Transport Properties.’ Angewandte Chemie 124, No. 26: 6484–6488. doi: 10.1002/ange.201201961.
- . . ‘Electronic Structure of Spatially Aligned Graphene Nanoribbons on Au(788).’ Physical Review Letters 108, No. 21: 216801–216805. doi: 10.1103/PhysRevLett.108.216801.
- . . ‘Facile Modification of Silica Substrates Provides a Platform for Direct-Writing Surface Click Chemistry.’ Small 8, No. 4: 541–545. doi: 10.1002/smll.201101875.
- . . ‘Allergen Arrays for Antibody Screening and Immune Cell Activation Profiling Generated by Parallel Lipid Dip-Pen Nanolithography.’ Small 8, No. 4: 585–591. doi: 10.1002/smll.201101694.
- . . ‘Understanding Dissipative Tip–Molecule Interactions with Submolecular Resolution on an Organic Adsorbate.’ Small 8, No. 4: 602–611. doi: 10.1002/smll.201101919.
- . . ‘Molecular cloisonné: Multicomponent organic alternating nanostructures at vicinal surfaces with tunable length scales .’ Small 8, No. 4: 535–540. doi: 10.1002/smll.201100822.
- . . ‘Frictional properties of a mesoscopic contact with engineered surface roughness.’ Tribology Letters 42, No. 3: 319–324. doi: 10.1007/s11249-011-9776-8.
- . . ‘High-resolution triple-color patterns based on the liquid behavior of organic molecules.’ Small 7, No. 10: 1403–1406. doi: 10.1002/smll.201002210.
- . . ‘Measurement of mass transfer during dip-pen nanolithography with phospholipids.’ Small 7, No. 14: 2081–2086. doi: 10.1002/smll.201100381.
- . . ‘Patterning of proteins into nanostripes on Si-wafer over large areas: A combination of Langmuir-Blodgett patterning and orthogonal surface chemistry.’ Soft matter (RSC) 7, No. 3: 861–863. doi: 10.1039/c0sm00994f.
- . . ‘A nanosized molybdenum oxide wheel with a unique electronic-necklace structure: STM study with submolecular resolution .’ Angewandte Chemie 123, No. 31: 7156–7159. doi: 10.1002/ange.201102274.
- . . ‘Two-dimensional self-assembly of linear molecular rods at the liquid/solid interface.’ Langmuir 27, No. 4: 1359–1363. doi: 10.1021/la1040079.
- . . ‘Controlling molecular packing for charge transport in organic thin films.’ Advanced Energy Materials 1, No. 2: 188–193. doi: 10.1002/aenm.201000021.
- . . ‘Structured polymer brushes and surface nitroxide exchange reactions.’ Polymer 41: 1972–1984.
- . . ‘Patterning of plasmonic nanoparticles into multiplexed one-dimensional arrays based on spatially modulated electrostatic potential.’ Journal of the American Chemical Society 5, No. 10: 8294. doi: 10.1021/nn202967f.
- . . ‘Site specific protein immobilization into structured polymer brushes prepared by AFM lithography.’ Soft Matter 7, No. 21: 9854–9858. doi: 10.1039/c1sm06013a.
- . . ‘Comparative Height Measurements of Dip-Pen Nanolithography-Produced Lipid Membrane Stacks with Atomic Force, Fluorescence, and Surface Enhanced Ellipsometric Contrast Microscopy .’ Langmuir 27, No. 18: 11605–11608. doi: 10.1021/la202703j.
- . . ‘Stereochemistry triggered differential cell behaviours on chiral polymer surfaces.’ Soft Matter 6, No. 16: 3851–3855.
- . . ‘Anisotropic growth of organic semiconductor based on mechanical contrast of pre-patterned monolayer.’ Soft Matter 6, No. 21: 5302–5304. doi: 10.1039/c0sm00719f.
- . . ‘Cell adhesion and cellular patterning on a self-assem bled monolayer of zeolite L crystals.’ Advanced Functional Materials 20, No. 14: 2248–2254. doi: 10.1002/adfm.201000205.
- . . ‘Measurement of DPN-ink viscosity using an AFM cantilever.’ Nanotechnology 2010: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational - Technical Proceedings of the 2010 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2010 2: 231–234.
- . . ‘Substrate-independent dip-pen nanolithography based on reactive coatings.’ Journal of the American Chemical Society 132, No. 51: 18023–18025. doi: 10.1021/ja108679m.
- . . ‘Patterning of Functional Compounds by Multicomponent Langmuir-Blodgett Transfer and Subsequent Chemical Modification.’ Langmuir 26, No. 19: 15388–15393. doi: 10.1021/la102881r.
- . . ‘Temperature dependence of energy dissipation on NaCl(001) in non-contact atomic force microscopy.’ Nanotechnology 21, No. 34.
- . . ‘Tunable Multicolor Ordered Patterns with Two Dye Molecules.’ Advanced Materials 22, No. 25: 2764.
- . . ‘Frictional duality of metallic nanoparticles: Influence of particle morphology, orientation, and air exposure.’ Physical Review B 82, No. 3.
- . . ‘Temperature Dependence of Atomic-Scale Stick-Slip Friction.’ Physical Review Letters 104, No. 25.
- . . ‘Force field experiments of an epitaxial superstructure of 3,4,9,10-perylenetetra-carboxylic-dianhydride on Ag(111).’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 28, No. 3. doi: 10.1116/1.3322735.
- . . ‘Ion Strength and pH Sensitive Phase Transition of N-Isobutyryl-L-(D)-cysteine Mono layers on Au(111) Surfaces.’ Langmuir 26, No. 10: 7343–7348. doi: 10.1021/la904237d.
- . . ‘Lipid multilayer gratings.’ Nature Nanotechnology 5, No. 4: 275. doi: 10.1038/nnano.2010.17.
- . . ‘Multilevel Supramolecular Architectures Self-Assembled on Metal Surfaces.’ ACS Nano 4, No. 4: 1997–2002. doi: 10.1021/nn100116y.
- . . ‘Polymer Brush and Inorganic Oxide Hybrid Nanodielectrics for High Performance Organic Transistors.’ Journal of Physical Chemistry B 114, No. 16: 5315–5319.
- . . ‘Calculation of tip enhanced Raman scattering caused by nanoparticle plasmons acting on a molecule placed near a metallic film.’ Physical Review B 81, No. 12. doi: 10.1103/PhysRevB.81.125441.
- . . ‘Patterning of Polymer Electrodes by Nanoscratching.’ Advanced Materials 22, No. 12: 1374.
- . . ‘In Situ Lipid Dip-Pen Nanolithography Under Water.’ Scanning 32, No. 1: 15–23.
- . . ‘Measuring wear by combining friction force and dynamic force microscopy.’ Wear 268, No. 3-4: 526–532. doi: 10.1016/j.wear.2009.09.010.
- . . ‘Controllable Growth and Field-Effect Property of Monolayer to Multilayer Microstripes of an Organic Semiconductor.’ Journal of the American Chemical Society 132, No. 26: 8807. doi: 10.1021/ja1017267.
- . . ‘Structural transition and thermal stability of a coronene molecular monolayer on Cu(110).’ Journal of Physical Chemistry C 114, No. 25: 11180–11184. doi: 10.1021/jp101865j.
- . . ‘Erratum: Adsorption and bonding mechanism of a N,N'-di(n-butyl)quinacridone monolayer studied by density functional theory including semiempirical dispersion corrections .’ Physical Review B 81, No. 24: 249904-1–249904-2. doi: 10.1103/PhysRevB.81.249904.
- . . ‘Mapping of localized spin-wave excitations by near-field Brillouin light scattering.’ Applied Physics Letters 97, No. 15: 152502-1–152502-3. doi: 10.1063/1.3502599.
- . . ‘Surface-mounted molecular rotors with variable functional groups and rotation radii.’ Nano Letters 9, No. 12: 4387. doi: 10.1021/nl902670k.
- . . ‘Saccharide-sensitive wettability switching on a smart polymer surface.’ Soft Matter 5, No. 14: 2759–2765.
- . . ‘Selective Adsorption of DNA on Chiral Surfaces: Supercoiled or Relaxed Conformation.’ Angewandte Chemie International Edition 48, No. 29: 5282–5286.
- . . ‘Smart surface of water-induced superhydrophobicity.’ Chemical communications , No. 19: 2658–2660.
- . . ‘Time-domain electrostatic force spectroscopy on nanostructured lithium-ion conducting glass ceramics: analysis and interpretation of relaxation times.’ Physical Chemistry Chemical Physics 11, No. 26: 5499–5505.
- . . ‘Control over Patterning of Organic Semiconductors: Step-Edge-Induced Area-Selective Growth.’ Advanced Materials 21, No. 46: 4721. doi: 10.1002/adma.200901091.
- . . ‘One-Dimensional Arrangement of Gold Nanoparticles with Tunable Interparticle Distance.’ Small 5, No. 24: 2819–2822.
- . . ‘Alternating the Crystalline Structural Transition of Coronene Molecular Overlayers on Ag(110) through Temperature Increase.’ Journal of Physical Chemistry C 113, No. 41: 17643–17647.
- . . ‘Battery Drivable Organic Single-Crystalline Transistors Based on Surface Grafting Ultrathin Polymer Dielectric.’ Advanced Functional Materials 19, No. 18: 2987–2991.
- . . ‘Electrostatic field effect on molecular structures at metal surfaces.’ Surface Science 603, No. 17: 2815–2819.
- . . ‘Transition from static to kinetic friction of metallic nanoparticles.’ Applied Physics Letters 95, No. 5.
- . . ‘Submolecular features of epitaxially grown PTCDA on Cu(111) analyzed by force field spectroscopy.’ Nanotechnology 20, No. 26.
- . . ‘Nucleotide-Responsive Wettability on a Smart Polymer Surface.’ Journal of the American Chemical Society 131, No. 24: 8370.
- . . ‘Single-Molecule Study on Intermolecular Interaction between C-60 and Porphyrin Derivatives: Toward Understanding the Strength of the Multivalency.’ Langmuir 25, No. 12: 6627–6632.
- . . ‘Structured Polymer Brushes by AFM Lithography.’ Small 5, No. 8: 919–923. doi: 10.1002/smll.200801339.
- . . ‘Weak Epitaxy Growth of Copper Hexadecafluorophthalocyanine (F16CuPc) on p-Sexiphenyl Monolayer Film.’ Journal of Physical Chemistry B 113, No. 8: 2333–2337.
- . . ‘Manipulating Surface Diffusion Ability of Single Molecules by Scanning Tunneling Microscopy.’ Nano Letters 9, No. 1: 132–136. doi: 10.1021/nl802677c.
- . . ‘Nanomedicine--challenge and perspectives.’ Angewandte Chemie - International Edition 48, No. 5: 872–97. doi: 10.1002/anie.200802585.
- . . ‘Biomechanical Characterization of Pancreatic Tumor Cells by Dielectrophoresis Force Generation in a Microfluidic System.’ Pancreas 38, No. 8: 1034–1034.
- . . ‘Oscillation Control in Dynamic SPM with Quartz Sensors.’ In Applied Scanning Probe Methods XI, Scanning Probe Microscopy Techniques, edited by , 1–16. Berlin Heidelberg: Springer VDI Verlag. doi: 10.1007/978-3-540-85037-3.
- . . ‘Scanning force microscopy study of activated human platelets interaction with leucocytes and red blood cells.’ In PHYSICS, CHEMISTRY AND APPLICATION OF NANOSTRUCTURES Reviews and Short Notes, edited by , 523–526.: World Scientific.
- . . ‘Scanning Ion Conductance Microscopy of Cellular and Artificial Membranes.’ In Nanotechnology 6: Nanoprobes, edited by , 197–211. Wiley-VCH. doi: 10.1002/9783527628155.nanotech068.
- . . ‘Materials Integration by Dip-Pen Nanolithography.’ In Nanotechnology 6: Nanoprobes, edited by , 171–196. Wiley-VCH. doi: 10.1002/9783527628155.nanotech067.
- . . „Nanomedizin - Herausforderung und Perspektiven.“ Angewandte Chemie 121, No. 5: 886–913. doi: 10.1002/ange.200802585.
- . . ‘Nanoscale Imaging and Force Analysis with Atomic Force Microscopy.’ In Nanotechnology 6: Nanoprobes, edited by , 49–87. Wiley-VCH. doi: 10.1002/9783527628155.nanotech064.
- . . ‘Tuning CuTCNQ Nanostructures on Patterned Copper Films.’ Journal of Physical Chemistry C 112, No. 45: 17625–17630.
- . . ‘Reversible and Reproducible Conductance Transition in a Polyimide Thin Film.’ Journal of Physical Chemistry C 112, No. 44: 17038–17041.
- . . ‘Adsorption and bonding mechanism of a N,N-'-di(n-butyl)quinacridone monolayer studied by density functional theory including semiempirical dispersion corrections.’ Physical Review B 78, No. 16. doi: 10.1103/PhysRevB.78.165432.
- . . ‘A Self-Correcting Inking Strategy for Cantilever Arrays Addressed by an Inkjet Printer and Used for Dip-Pen Nanolithography.’ Small 4, No. 10: 1666–1670.
- . . ‘Multiplexed Lipid Dip-Pen Nanolithography on Subcellular Scales for the Templating of Functional Proteins and Cell Culture.’ Small 4, No. 10: 1785–1793.
- . . ‘Contact ageing in atomic friction.’ Journal of Physics: Condensed Matter 20, No. 35. doi: 10.1088/0953-8984/20/35/354001.
- . . ‘Stereoselective interaction between DNA and chiral surfaces.’ Journal of the American Chemical Society 130, No. 34: 11284+.
- . . ‘Two dimensional chiral networks emerging from the aryl-F... H hydrogen-bond-driven self-assembly of partially fluorinated rigid molecular structures.’ Journal of the American Chemical Society 130, No. 33: 10840–10841. doi: 10.1021/ja801925q.
- . . ‘POLY 94-Structuring of surfaces with polymer brushes through nitroxide mediated polymerization and self-organization.’ Abstracts of Papers of the American Chemical Society 235.
- . . ‘Kinetics of island formation in organic film growth.’ Physical Review B 77, No. 11.
- . . ‘Mechanochemistry and thermochemistry are different: stress-induced strengthening of chemical bonds.’ Physical Review Letters 100, No. 11: 115503.
- . . ‘One-step controllable synthesis for high-quality ultrafine metal oxide semiconductor nanocrystals via a separated two-phase hydrolysis reaction.’ Journal of the American Chemical Society 130, No. 8: 2676–2680.
- . . ‘Noncontact atomic force microscopy imaging mechanism on Ag(110): Experiment and first-principles theory.’ Physical Review B 77, No. 4.
- . . ‘Influence of substrate treatment on self-organized pattern formation by Langmuir-Blodgett transfer.’ Journal of Physical Chemistry B 112, No. 3: 824–827.
- . . ‘Chemical nanostructures of multifunctional self-assembled monolayers.’ Advanced Materials 20, No. 2: 346.
- . . ‘Frictional duality observed during nanoparticle sliding.’ Physical Review Letters 101, No. 12: 101. doi: 10.1103/PhysRevLett.101.125505.
- . . ‘Site-selective surface-initiated polymerization by Langmuir-Blodgett lithography.’ Angewandte Chemie International Edition 46, No. 27: 5231–5233. doi: 10.1002/anie.200605020.
- . . ‘Quartz crystal resonator as a sensor in scanning probe microscopy.’ Proceedings of the IEEE International Frequency Control Symposium and Exposition 2007: 483–487. doi: 10.1109/FREQ.2007.4319121.
- . . ‘Correlating dynamics and selectivity in adsorption of semiconductor nanocrystals onto a self-organized pattern.’ Nano Letters 7, No. 11: 3483–3488.
- . . ‘Oligoethylene-bridged diferrocene on Ag(110): Monolayer structures and adsorbate-induced faceting.’ Physical Review B 76, No. 20.
- . . ‘Light scattering by a nanoparticle and a dipole placed near a dielectric surface covered by a thin metallic film.’ Optics Express 15, No. 21: 13796–13804.
- . . ‘Interfacial friction obtained by lateral manipulation of nanoparticles using atomic force microscopy techniques.’ Journal of Applied Physics 102, No. 8. doi: 10.1063/1.2798628.
- . ‘Capillary-induced contact guidance.’ Langmuir 23, No. 20: 10216–10223. doi: 10.1021/la701043f.
- . . ‘Structures and stability of ferrocene derivative monolayers on ag(110): Scanning tunneling microscopy study.’ Journal of Physical Chemistry C 111, No. 33: 12139–12144.
- . . ‘Multicolor emission on prepatterned substrates using a single dye species.’ Advanced Materials 19, No. 16: 2119.
- . . ‘Langmuir-Blodgett patterning: a bottom-up way to build mesostructures over large areas.’ Accounts of Chemical Research 40, No. 6: 393–401. doi: 10.1021/ar600019r.
- . . ‘Patterned nucleation control in vacuum deposition of organic molecules.’ Physical Review Letters 98, No. 22. doi: 10.1103/PhysRevLett.98.225504.
- . . ‘Observation of structural and conductance transition of rotaxane molecules at a submolecular scale.’ Advanced Functional Materials 17, No. 5: 770–776.
- . . ‘Studies on the influence of phasins on accumulation and degradation of PHB and nanostructure of PHB granules in Ralstonia eutropha H16.’ Biomacromolecules 8, No. 2: 657–662. doi: 10.1021/bm060912e.
- . . ‘Fabrication of gradient mesostructures by Langmuir-Blodgett rotating transfer.’ Langmuir 23, No. 5: 2280–2283.
- . . ‘Stereospecific interaction between immune cells and chiral surfaces.’ Journal of the American Chemical Society 129, No. 6: 1496.
- . . ‘Massively parallel dip-pen nanolithography of heterogeneous supported phospholipid multilayer patterns.’ Small 3, No. 1: 71–75.
- . . ‘Fast interfacial ionic conduction in nanostructured glass ceramics.’ Physical Review Letters 98, No. 22: 98. doi: 10.1103/PhysRevLett.98.225901.
- . . ‘Long chain-substituted and triply functionalized molecular knots - Synthesis, topological chirality and monolayer formation.’ European Journal of Organic Chemistry , No. 1: 45–52.
- . . ‘Ortsselektive Polymerisationen an Oberflächen durch Langmuir-Blodgett-Lithographie.’ Angewandte Chemie 119, No. 27: 5324––5326. doi: 10.1002/ange.200605020.
- . . ‘CeNTech - Nanotechnological Research and Application.’ Journal of Business Chemistry 4, No. 1: 3–9.
- . . ‘Shear-Force-Controlled Scanning Ion Conductance Microscopy.’ In Nanobiotechnology II: More Concepts and Applications, edited by , 197–212. Wiley-VCH. doi: 10.1002/9783527610389.ch11.
- . . ‘Dynamic Modes of Atomic Force Microscopy.’ In Springer handbook of nanotechnology, edited by , 737–765. 2nd Ed. Berlin: Springer VDI Verlag.
- . . ‘A self assembled molecular zipper based on a perfluorophenyl-phenyl diacetylene motif.’ Chemical communications , No. 17: 1862–1863.
- . . ‘First-principles study of the atomic-scale structure of clean silicon tips in dynamic force microscopy.’ Physical Review B 74, No. 16.
- . . ‘Selective nontemplated adsorption of organic molecules on nanofacets and the role of bonding patterns.’ Physical Review Letters 97, No. 15.
- . . ‘Fabrication of high-density large-area conducting-polymer nanostructures.’ Advanced Functional Materials 16, No. 15: 1937–1942.
- . . ‘Interface circuits for quartz crystal sensors in scanning probe microscopy applications.’ Review of Scientific Instruments 77, No. 8.
- . . ‘Interface interaction controlled transport of CdTe nanoparticles in the microcontact printing process.’ Langmuir 22, No. 18: 7807–7811.
- . . ‘Influence of the local adsorption environment on the intramolecular contrast of organic molecules in noncontact atomic force microscopy.’ Applied Physics Letters 89, No. 9. doi: 10.1063/1.2345235.
- . . ‘Hierarchical luminescence patterning based on multiscaled self-assembly.’ Journal of the American Chemical Society 128, No. 30: 9592–9593.
- . . ‘Temperature-tuned organic monolayer growth: N,N '-di(n-butyl)quinacridone on Ag(110).’ Physical Review B 73, No. 23.
- . . ‘Role of lateral alkyl chains in modulation of molecular structures on metal surfaces.’ Physical Review Letters 96, No. 22.
- . . ‘Reproducible attachment of micrometer sized particles to atomic force microscopy cantilevers.’ Review of Scientific Instruments 77, No. 4.
- . . ‘Langmuir-Blodgett patterning of phospholipid microstripes: Effect of the second component.’ Journal of Physical Chemistry B 110, No. 15: 8039–8046.
- . . ‘Imaging of biomaterials in liquids: a comparison between conventional and Q-controlled amplitude modulation ('tapping mode') atomic force microscopy.’ Nanotechnology 17, No. 7: S221S226.
- . . ‘Ultrathin luminescent films of rigid dinuclear ruthenium(II) trisbipyridine complexes.’ Advanced Functional Materials 16, No. 5: 625–632.
- . . ‘Influence of an amide group in methyl octadecanoates on the monolayer stability.’ Langmuir 22, No. 4: 1586–1594. doi: 10.1021/la0522799.
- . . ‘Synthesis and surface properties of new ureas and amides at different interfaces.’ Langmuir 22, No. 4: 1619–1625. doi: 10.1021/la052370c.
- . . ‘Atomic-scale sharpening of silicon tips in noncontact atomic force microscopy.’ Physical Review Letters 96, No. 1: 016101.
- . . ‘Single-atom contact mechanics: From atomic scale energy barrier to mechanical relaxation hysteresis.’ Physical Review Letters 97, No. 13: 97. doi: 10.1103/PhysRevLett.97.136101.
- . . ‘Force dependence of transition rates in atomic friction.’ Physical Review Letters 97, No. 24: 97. doi: 10.1103/PhysRevLett.97.240601.
- . . ‘Temperature dependence of point contact friction on silicon.’ Applied Physics Letters 88, No. 12: 88. doi: 10.1063/1.2187575.
- . . ‘Scanning ION Conductance Microscopy Part II.’ In Applied scanning probe methodes II, edited by , 91–119. Springer VDI Verlag.
- . . ‘Near-field raman spectroscopy using a tetrahedral SNOM tip.’ In Nanophotonics, edited by . doi: 10.1117/12.662561.
- . . ‘Nanoanalytik: Tools zur Charakterisierung von Materialoberflächen im Nanometerbereich (Modul 10).’ In Nanotechnologie, edited by . 3rd Ed. IIR Verlag GmbH.
- . . ‘Nanoscopic study of the ion dynamics in a LiAlSiO4 glass ceramic by means of electrostatic force spectroscopy.’ Physical Chemistry Chemical Physics 7, No. 7: 1472–1475.
- . . ‘Mechanism of regular pattern formation in reactive dewetting.’ ChemPhysChem 6, No. 12: 2495–2498.
- . . ‘Self-organized patterning: Regular and spatially tunable luminescent submicrometer stripes over large areas.’ Advanced Materials 17, No. 23: 2881.
- . . ‘Patterning of conducting polymers based on a random copolymer strategy: Toward the facile fabrication of nanosensors exclusively based on polymers.’ Advanced Materials 17, No. 22: 2736.
- . . ‘Patterning of semiconductor nanoparticles via microcontact printing.’ European Journal of Inorganic Chemistry , No. 18: 3729–3733.
- . . ‘Dual wavelength SNOM imaging of monolayers of J-aggregated cyanine dye molecules.’ Journal of the Korean Physical Society 47: S48S55.
- . . ‘Spatially tunable stripe patterns by phosphollipids: Self-organization and complexity.’ Abstracts of Papers of the American Chemical Society 230: U1242–U1243.
- . . ‘Radiative spectra of thermal electromagnetic noise induced by planar realistic dielectrics.’ Central European Journal of Physics 3, No. 3: 351–375.
- . . ‘Tip-jump statistics of stick-slip friction.’ Physical Review B 71, No. 24.
- . . ‘Branched wires of CdTe nanocrystals using amphiphilic molecules as templates.’ Small 1, No. 5: 524–527.
- . . ‘Fabrication of polypyrrole wires between microelectrodes.’ Small 1, No. 5: 520–524.
- . . ‘Anisotropic aggregation and phase transition in Langmuir monolayers of methyl/ethyl esters of 2,3-dihydroxy fatty acids.’ Journal of Colloid and Interface Science 285, No. 2: 814–820.
- . . ‘Optimized detection of normal vibration modes of atomic force microscope cantilevers with the optical beam deflection method.’ Journal of Applied Physics 97, No. 8.
- . . ‘Phase behavior of 2,3-disubstituted methyl octadecanoate monolayers at the air-water interface.’ Langmuir 21, No. 8: 3376–3383. doi: 10.1021/la0470479.
- . . ‘Dynamic force spectroscopy using the constant-excitation and constant-amplitude modes.’ Nanotechnology 16, No. 3: S13–S17. doi: 10.1088/0957-4484/16/3/003.
- . . ‘Hysteretic behaviour of the tip-sample interaction on an InAs(110) surface: an ab initio study.’ Nanotechnology 16, No. 3: S59S62.
- . . ‘Ordered 1,6-bis(2-hydroxyphenyl) pyridine boron complex films grown on Ag(110): From submonolayer to multilayer.’ Physical Review B 71, No. 12.
- . . ‘Simple and complex lattices of N-alkyl fatty acid amides on a highly oriented pyrolytic graphite surface.’ Langmuir 21, No. 4: 1364–1370. doi: 10.1021/la048461b.
- . . ‘Molecular growth and sub-molecular resolution of a thin multilayer of PTCDA on Ag(110) observed by scanning tunneling microscopy.’ Surface Science 575, No. 1-2: 3–11.
- . . ‘Unconventional air-stable interdigitated bilayer formed by 2,3-disubstituted fatty acid methyl esters.’ Journal of Physical Chemistry B 109, No. 42: 19866–19875. doi: 10.1021/jp054788p.
- . . ‘Scanning Probe Microscopy.’ In Encyclopedia of Materials: Science and Technology, 1–12. Elsevier. doi: 10.1016/B0-08-043152-6/02034-9.
- . . ‘Proximity effect in silicon oxidation under a scanning probe.’ PHYSICS, CHEMISTRY AND APPLICATION OF NANOSTRUCTURES : 482–485. doi: 10.1142/9789812701947_0109.
- . . ‘Gold DNA-conjugates: Ion specific self-assembly of gold nanoparticles via the dG-quartet.’ Nucleosides and Nucleotides 24, No. 5-7: 843–848.
- . . ‘Scanning force microscopy study of the pancreatic beta-cells surface morphology changes induced by hydrogen peroxide exposure.’ Physics of Low Dimensional Structures 1-2: 159–164.
- . . ‘"In situ" STM studies of the ordering process of a nonplanar derivative of PTCDI on Ag(110).’ Surface Science 562, No. 1-3: 53–64.
- . . ‘Lateral patterning of luminescent CdSe nanocrystals by selective dewetting from self-assembled organic templates.’ Nano Letters 4, No. 5: 885–888.
- . . ‘Self-organized complex patterning: Langmuir-Blodgett lithography.’ Advanced Materials 16, No. 7: 619.
- . . ‘The shape of transmission spectra of thin films deposited on a substrate.’ Journal of Chemical Physics 120, No. 12: 5849–5850.
- . . ‘Regular arrays of copper wires formed by template-assisted electrodeposition.’ Advanced Materials 16, No. 5: 409.
- . . ‘Structural evolution of pentacene on a Ag(110) surface.’ Physical Review B 69, No. 7.
- . . ‘Probing ion transport at the nanoscale: Time-domain electrostatic force spectroscopy on glassy electrolytes.’ Applied Physics Letters 85, No. 11: 2053–2055. doi: 10.1063/1.1790034.
- . . ‘Motivation und Herausforderung der Selbstorganisation.’ In Technologiefrüherkennung, 'Kontrollierte Selbstorganisation für zukünftige technische Anwendungen, edited by , 5–8.
- . . ‘Rastersondenmikroskopie.’ In Lehrbuch der Experimentalphysik, edited by , 1133–1159. 10th Ed. De Gruyter.
- . . ‘Ein Rastertunnelmikroskop im Selbstbau.’ In Physik in unserer Zeit, 217. 5th Ed. Wiley-VCH. doi: 10.1002/piuz.200490080.
- . . ‘Nanotechnologie - Chance oder Risiko?’ In Akademie-Journal, 48–54. unbekannt / n.a. / unknown.
- . . ‘Dynamic force microscopy, Part I-1.’ In Applied scanning probe methods, edited by , 3–39. 1st Ed. Springer VDI Verlag.
- . . ‘Dynamic force microscopy.’ In Handbook of Nanotechnology, edited by , 449–473. Springer VDI Verlag. doi: 10.1007/3-540-28248-3_6.
- . . ‘Impact of compatible solutes on the mechanical properties of fibronectin: a single molecule analysis.’ Physical Chemistry Chemical Physics 5, No. 9: 1876–1881.
- . . ‘Super-resolution scanning near-field optical microscopy.’ Topics in Applied Physics 88: 141–152. doi: 10.1007/3-540-45871-9_10.
- . . ‘Towards "mechanochemistry": Mechanically induced isomerizations of thiolate-gold clusters.’ Angewandte Chemie International Edition 42, No. 20: 2251–2253.
- . . ‘Scanning probe microscopies - Recent developments and applications.’ Microscopy and Microanalysis 9, No. SUPPL. 3: 10–11.
- . . ‘Measurements of metal-polymer adhesion properties with dynamic force spectroscopy.’ Surface Science 545, No. 3: 155–162.
- . . ‘Spectral composition of electromagnetic fluctuations induced by a lossy layered system.’ Annalen der Physik 12, No. 7-8: 421–437.
- . . ‘Scanning near-field optical microscopy of a cell membrane in liquid.’ Journal of Microscopy 210: 288–293. doi: 10.1046/j.1365-2818.2003.01147.x.
- . . ‘Highly ordered self-assembled architectures of modified terpyridines on highly ordered pyrolitic graphite imaged by scanning tunneling microscopy.’ Advanced Functional Materials 13, No. 4: 277–280.
- . . ‘Molecular arrangement of fatty acids at the solid-liquid interface visualized by chemical decoration.’ ChemPhysChem 4, No. 5: 494–498.
- . . ‘Molecular-template-mediated chemical decoration.’ ChemPhysChem 4, No. 5: 490–494.
- . . ‘Photonic nanopatterns of gold nanostructures indicate the excitation of surface plasmon modes of a wavelength of 50-100 nm by scanning near-field optical microscopy.’ Journal of Microscopy 209: 241–248.
- . . ‘Auf dem Weg zur "Mechano-Chemie": mechanisch induzierte Isomerisierungen von Thiolat-Goldclustern.’ Angewandte Chemie 115, No. 20: 2353–2355. doi: 10.1002/ange.200351000.
- . . ‘Small dimensions and materials properties – A definition of nanotechnology.’, edited by , 1–134. Bad Neuenahr-Ahrweiler: Warlich Druck.
- . . ‘Klassifikation der rastersondenmikroskopischen Verfahren.’ Angewandte Chemie 115, No. 45: 5804–5820. doi: 10.1002/ange.200280013.
- . . ‘Confined supramolecular nanostructures of mesogen-bearing amphiphiles.’ Chemical communications , No. 9: 1008–1009.
- . . ‘Scanning force microscopy study of PC12 cells surface morphology.’ Physics of Low Dimensional Structures 5-6: 115–120.
- . . ‘The imaging of small domains of J-aggregated dye molecules by scanning near-field optical microscopy.’ Single Molecules 3, No. 5-6: 301–309.
- . . ‘Two-Dimensional Networks via Quasi One-Dimensional Arrangements of Gold Clusters.’ Nano Letters 2, No. 7: 709–711. doi: 10.1021/nl025608f.
- . . ‘Fabrication of chemically patterned surfaces based on template-directed self-assembly.’ Advanced Materials 14, No. 24: 1812–1815.
- . . ‘Enhanced light confinement in a near-field optical probe with a triangular aperture.’ Physical Review Letters 89, No. 21: 210801–210805. doi: 10.1103/PhysRevLett.89.210801.
- . . ‘Connecting nanowires consisting of Au-55 with model electrodes.’ Nano Letters 2, No. 10: 1097–1099.
- . . ‘Pulling monatomic gold wires with single molecules: An ab initio simulation.’ Physical Review Letters 89, No. 18: art. no.–186402.
- . . ‘Surface micelles of single chain amphiphiles bearing azobenzene.’ Langmuir 18, No. 21: 8006–8009.
- . . ‘Ab initio simulation of the rupture process of a thiolate-gold nanojunction.’ Abstracts of Papers of the American Chemical Society 224: U454U454.
- . . ‘Metal nanoparticles, nanowires, and contact electrodes self-assembled on patterned monolayer templates - A bottom-up chemical approach.’ Advanced Materials 14, No. 15: 1036.
- . . ‘Imaging of photonic nanopatterns by scanning near-field optical microscopy.’ Journal of the Optical Society of America B 19, No. 6: 1295–1300.
- . . ‘Formation of Au-55 strands on a molecular template at the solid-liquid interface.’ Nano Letters 2, No. 5: 459–463.
- . . ‘Dynamic scanning force microscopy study of self-assembled DNA-protein nanostructures.’ Applied Physics A 74, No. 3: 447–452.
- . . ‘Organic monolayers with uniform domain orientation and reduced antiphase boundaries - MBE of perylene on Au(110).’ Organic Electronics 3, No. 1: 1–7.
- . . ‘Dynamic AFM using the FM technique with constant excitation amplitude.’ Applied Surface Science 188, No. 3-4: 355–362.
- . . ‘Latex bead projection nanopatterns.’ Surface and Interface Analysis 33, No. 2: 75–80.
- . . Special issue papers presented at SXM-4 25-27 September 2000 Münster Germany - Preface.
- . . ‘Spectral properties of fluctuating electromagnetic fields in a plane cavity: Implication for nanoscale physics.’ Physical Review E - Statistical, nonlinear, and soft matter physics 65, No. 2: art. no.–026610.
- . . ‘Assembly of new dioxygenated alkyl alkanoates at the air-water interface.’ Colloids and Surfaces A: Physicochemical and Engineering Aspects 198: 453–465. doi: 10.1016/S0927-7757(01)00964-5.
- . . Comment on "Damping mechanism in dynamic force microscopy".
- . . ‘Simultaneous topographical and optical characterization of near-field optical aperture probes by way of imaging fluorescent nanospheres.’ Applied Physics Letters 2002, No. 80: 1331–1333. doi: 10.1063/1.1454220.
- . . ‘Second-harmonic imaging of the absolute polar molecular orientation at interfaces.’ Physical Review B 65, No. 12: 125406–125417. doi: 10.1103/PhysRevB.65.125406.
- . . ‘Spectral power densities of fluctuating electromagnetic fields and their derivatives in a plane cavity.’ Physics of Low Dimensional Structures 3-4: 77–80.
- . . ‘Nucleic acid supercoiling as a means for ionic switching of DNA - Nanoparticle networks.’ Chembiochem 2, No. 4: 260–264. doi: 10.1002/1439-7633(20010401)2:4260::AID-CBIC260>3.3.CO;2-5.
- . . ‘Structural transitions of perylene and coronene on silver and gold surfaces: A molecular-beam epitaxy LIKED study.’ Physical Review B 64, No. 19: art. no.–195418.
- . . ‘Interaction of short-chain alkane thiols and thiolates with small gold clusters: Adsorption structures and energetics.’ Journal of Chemical Physics 115, No. 10: 4776–4786.
- . . ‘Measurement of conservative and dissipative tip-sample interaction forces with a dynamic force microscope using the frequency modulation technique.’ Physical Review B 64, No. 7: art. no.–075402.
- . . ‘Molecular arrangement of lipid modified amino acids at the solid-liquid interface of highly oriented pyrolytic graphite.’ Surface Science 487, No. 1-3: 9–14.
- . . ‘Damping of a moving particle near a wall: A relativistic approach.’ Physical Review B 64, No. 3: art. no.–035403. doi: 10.1063/1.2238467.
- . . ‘Investigation of the epitaxial growth of octamethylene-tetrathiafulvalene (OMTTF) on substrates of different chemical reactivity.’ Advanced Functional Materials 11, No. 3: 188–192.
- . . ‘LEED and optical spectroscopy study of an organic epitaxial multilayer film.’ Advanced Functional Materials 11, No. 3: 193.
- . . ‘Research initiative "nanoscience in North Rhine Westphalia".’ Advanced Functional Materials 11, No. 3: 167–168.
- . . ‘High-quality mapping of DNA-protein complexes by dynamic scanning force microscopy.’ ChemPhysChem 2, No. 6: 384–388.
- . . ‘Ex situ SFM study of 2-D aggregate geometry of azobenzene containing bolaform amphiphiles after adsorption,at the mica/aqueous solution interface.’ Langmuir 17, No. 12: 3682–3688.
- . . ‘Ordered structures of a nonplanar derivative of PTCDI on Ag(110): STM and LEED investigations.’ Physical Review B 63, No. 19: art. no.–195418.
- . . ‘Investigation of the covalently attached multilayer architecture based on diazo-resins and poly(4-styrene sulfonate).’ Macromolecular Chemistry and Physics 202, No. 7: 967–973.
- . . ‘SNOM/STM using a tetrahedral tip and a sensitive current-to-voltage converter.’ Journal of Microscopy 202: 53–59.
- . . ‘Nucleic acid supercoiling as a means for ionic switching of DNA-nanoparticle networks.’ Chembiochem 2, No. 4: 260–264.
- . . ‘The measurement of hysteretic forces by dynamic AFM.’ Applied Physics A 72: S55S58.
- . . ‘The suppression of water-diffusion in polycarbonate through Ar- and He-plasma as a new model for the origin of improved adhesion of Al.’ Applied Surface Science 173, No. 1-2: 1–7.
- . . ‘Contrast studies on organic monolayers of different molecular packing in FESEM and their correlation with SFM data.’ Langmuir 17, No. 6: 1872–1877.
- . . ‘Dynamic force spectroscopy of conservative and dissipative forces in an Al-Au(111) tip-sample system.’ Physical Review Letters 86, No. 12: 2597–2600.
- . . ‘Anisotropic contact-angle hysteresis of chemically nanostructured surfaces.’ ChemPhysChem 2, No. 3: 187–191.
- . . ‘Self-assembled monolayer of new dendron-thiols: manipulation of the patterned surface and wetting properties.’ Chemical communications 19, No. 1: 1906–1907. doi: 10.1039/B103903M.
- . . „Chemische Bindungen unter dem Rasterkraftmikroskop.“ Physikalische Blätter 57, No. 6: 22–25.
- . . ‘Die Welt im Kleinen: Potenziale der Nanotechnologie.’ Das Magazin, Wissenschaftszentrum Nordrhein-Westfalen 2001.
- . . ‘Force spectroscopy of molecular systems - Single molecule spectroscopy of polymers and biomolecules.’ Angewandte Chemie International Edition 39, No. 18: 3213–3237.
- . . ‘Nano-size stripes of self-assembled bolaform amphiphiles.’ Chemical communications , No. 14: 1273–1274.
- . . ‘Conformational analysis of native fibronectin by means of force spectroscopy.’ Langmuir 16, No. 26: 9955–9958.
- . . ‘Multilayer assemblies of copolymer PSOH and PVP on the basis of hydrogen bonding.’ Langmuir 16, No. 26: 10490–10494.
- . . ‘Imaging the absolute polar molecular orientation with monolayer sensitivity.’ Advanced Materials 12, No. 24: 1918.
- . . ‘The effect of annealing on the photoluminescence of epitaxial DMe-PTCDI multilayers on Ag(110).’ Thin Solid Films 379, No. 1-2: 176–182.
- . . ‘Monolayers of nanosized Au-55-clusters: preparation and characterization.’ Colloids and Surfaces A: Physicochemical and Engineering Aspects 171, No. 1-3: 241–248.
- . . ‘Overlayer thickness determination by angular dependent X-ray photoelectron spectroscopy (ADXPS) of rough surfaces with a spherical topography.’ Surface Science 465, No. 1-2: 40–50.
- . . ‘Structure of a fusion peptide analogue at the air-water interface, determined from surface activity, infrared spectroscopy and scanning force microscopy.’ Biophysical Chemistry 87, No. 1: 63–72.
- . . ‘The influence of molecular aggregation on the device properties of organic light emitting diodes.’ Thin Solid Films 372, No. 1-2: 163–168.
- . . ‘Oriented growth of DMe-PTCDI on Ag(110); an LEED, XPS. SFM and STM characterisation.’ Surface Science 459, No. 3: 310–322.
- . . ‘Investigation into self-assembled monolayers of a polyether dendron thiol: Chemisorption, kinetics, and patterned surface.’ Langmuir 16, No. 8: 3813–3817.
- . . ‘Comment on "Brownian motion of microscopic solids under the action of fluctuating electromagnetic fields" - Dorofeyev, Fuch and Gotsmann reply.’ Physical Review Letters 84, No. 15: 3505.
- . . ‘Photopatterning of a monomolecular dye film by means of scanning near-field optical microscopy.’ Applied Physics A 70, No. 2: 227–230.
- . . ‘Assembly of new vic-dihydroxyoctadecanoic acid methyl esters at the air-water interface.’ Langmuir 16, No. 3: 1141–1148. doi: 10.1021/la990655h.
- . . ‘Specific adhesion of vesicles monitored by scanning force microscopy and quartz crystal microbalance.’ Biophysical Journal 78, No. 1: 487–498. doi: 10.1016/S0006-3495(00)76611-2.
- . . ‘Substituent-dependent formation of supramolecular aggregates of 6-hydroxy-trans-3-hexenoic acids in the solid state.’ European Journal of Organic Chemistry , No. 1: 187–192.
- . . ‘Nanoscopic channel lattices with controlled anisotropic wetting.’ Nature 403, No. 6766: 173–175.
- . . ‘Supermolecular periodic structures in monolayers.’ Advanced Materials 12, No. 1: 25.
- . . ‘Reply - Comment on "Brownian motion of microscopic solids under the action of fluctuating electromagnetic fields".’84, No. 15: 3504–3505.
- . . ‘Rastersondenmikroskopie.’ In Lexikon der Physik, 414–416. Spektrum Akademischer Verlag.
- . . ‘An XPS and SFM study of plasma treatment and Al metallisation of polycarbonate: A comparison of SF6 and Ar plasma treatments.’ In Polymer Surface Modification: Relevance to Adhesion, edited by , 173–181. unbekannt / n.a. / unknown.
- . . ‘Kraftspektroskopie an molekularen Systemen – Einzelmolekülspektroskopie an Polymeren und Biomolekülen.’ Angewandte Chemie 112, No. 18: 3346–3374.
- . . ‘Self-assembly of DNA-streptavidin nanostructures and their use as reagents in immuno-PCR.’ Nucleic Acids Research 27, No. 23: 4553–4561. doi: 10.1093/nar/27.23.4553.
- . . ‘Preparation and characterization of low-dimensional nanostructures.’ Applied Surface Science 141, No. 3-4: 219–227. doi: 10.1016/S0169-4332(98)00508-X.
- . . ‘How to measure energy dissipation in dynamic mode atomic force microscopy.’ Applied Surface Science 140, No. 3-4: 376–382. doi: 10.1016/S0169-4332(98)00558-3.
- . . ‘Growth process and compressed phase of DMe-DCNQI on Ag(110) in the monolayer regime observed by LEED, XPS, and STM.’ Physical Review B - Condensed Matter 60, No. 20: 14341–14347. doi: 10.1103/PhysRevB.60.14341.
- . . ‘From achiral molecular components to chiral supermolecules and supercoil self-assembly.’ Chemistry - A European Journal 5, No. 4: 1144–1149. doi: 10.1002/(SICI)1521-3765(19990401)5:41144::AID-CHEM1144>3.0.CO;2-K.
- . . ‘Fluctuating electromagnetic interactions of solids terminated by nonplanar surfaces.’ Physical Review B - Condensed Matter 60, No. 12: 9069–9081. doi: 10.1103/PhysRevB.60.9069.
- . . ‘Determination of tip-sample interaction forces from measured dynamic force spectroscopy curves.’ Applied Surface Science 140, No. 3-4: 314–319. doi: 10.1016/S0169-4332(98)00547-9.
- . . ‘Conservative and dissipative tip-sample interaction forces probed with dynamic AFM.’ Physical Review B - Condensed Matter 60, No. 15: 11051–11061. doi: 10.1103/PhysRevB.60.11051.
- . . ‘Brownian motion of microscopic solids under the action of fluctuating electromagnetic fields.’ Physical Review Letters 83, No. 12: 2402–2405. doi: 10.1103/PhysRevLett.83.2402.
- . . ‘Architecture and surface properties of monomolecular films of a cyanine dye and their light-induced modification.’ Journal of Physical Chemistry B 103, No. 14: 2709–2717. doi: 10.1021/jp983018t.
- . . ‘Low-energy electron diffraction, scanning tunneling microscopy and X-ray photoemission spectroscopy investigations of DMe-DCNQI on Cu(110).’ Thin Solid Films 342, No. 1: 307–311. doi: 10.1016/S0040-6090(98)01416-3.
- . . ‘Internal reflection mode scanning near-field optical microscopy with the tetrahedral tip on metallic samples.’ Applied Physics A 69, No. 6: 581–589. doi: 10.1007/s003390051036.
- . . ‘Chemical imaging of interfaces by sum-frequency generation.’ Materials Science and Engineering: C 8-9: 335–341.
- . . ‘Chemical imaging of interfaces by sum frequency microscopy.’ Langmuir 15, No. 17: 5437–5439. doi: 10.1021/la9815603.
- . . ‘Ar plasma treated and Al metallised polycarbonate: a XPS, mass spectroscopy and SFM study.’ Applied Surface Science 150, No. 1-4: 19–33. doi: 10.1016/S0169-4332(99)00012-4.
- . . ‘Classification of scanning probe microscopies .’ Pure and Applied Chemistry 71, No. 7: 1337–1357. doi: 10.1046/j.1365-3075.1999.00266.x.
- . . ‘Nanotechnologie - Schlüssel zur Zukunft?’ In Jahrbuch 1989/99, edited by , 29–39. unbekannt / n.a. / unknown.
- . . ‘Rasterkraftmikroskopie im Vakuum an plasmabehandeltem und metallisiertem Polycarconat.’ Vakuum in Forschung und Praxis 11, No. 3: 158–161. doi: 10.1002/vipr.19990110308.
- . . ‘Architecture and surface properties of monomolecular films of a cyanine dye and their light-induced modification.’ Physical Review B 103, No. 14: 2709–2717. doi: 10.1021/jp983018t.
- . . ‘The monolayer behavior of amphiphilic polymer and heterostructure of polymer LB film/CdS clusters.’ Journal of Colloid and Interface Science 211, No. 2: 238–242. doi: 10.1006/jcis.1998.5969.
- . . ‘Interaktion von Sonde und Probe.’ In Spektrum der Wissenschaft, 96–99. Heidelberg.
- . . ‘Tip/surface interaction of a 1 MHz quartz resonator under vacuum conditions: Experiments and computer simulations.’ Probe Microscopy 1, No. 3: 259–267.
- . . ‘Synthesis and non-linear optical properties of (N-alkylpyrrol-2-yl)-squaraine derivatives. Part 2.’ Journal of the Chemical Society, Perkin Transactions 2 , No. 4: 779–784. doi: 10.1039/a708892b.
- . . ‘Study of long-range tilt orientation in fatty acid monolayers by dynamic scanning force microscopy.’ Langmuir 14, No. 4: 875–879. doi: 10.1021/la9705569.
- . . ‘Single-electron tunneling in Au55 clustermonolayers.’ Applied Physics A 66, No. SUPPL. 1: S187–S190. doi: 10.1007/s003390051127.
- . . ‘Self-assembled monolayers of dendron-thiol on solid substrate.’ Chemistry Letters , No. 12: 1197–1198. doi: 10.1246/cl.1998.1197.
- . . ‘Second-harmonic imaging of surface order and symmetry.’ Thin Solid Films 327-329, No. 1-2: 241–246. doi: 10.1016/S0040-6090(98)00637-3.
- . . ‘Second-harmonic imaging of ferroelectric domains in LiNbO3 with micron resolution in lateral and axial directions.’ Applied Physics B: Lasers and Optics 67, No. 5: 593–599.
- . . ‘Scanning tunneling microscopy and spectroscopy of atomic modifications on WSe2.’ Surface Science 398, No. 1-2: 231–240. doi: 10.1016/S0039-6028(98)80027-7.
- . . ‘Real-time monitoring of phase transitions of vacuum deposited organic films by molecular beam deposition LEED.’ Surface Science 408, No. 1-3: 223–231. doi: 10.1016/S0039-6028(98)00231-3.
- . . ‘Preparation and characterization of Langmuir monolayers and Langmuir-Blodgett films of nanosized Au55-clusters.’ Thin Solid Films 327-329, No. 1-2: 520–523. doi: 10.1016/S0040-6090(98)00701-9.
- . . ‘Nanoindentation on polycarbonate/polymethyl methacrylate blends.’ Applied Physics A 66, No. SUPPL. 1: S825–S829. doi: 10.1007/s003390051250.
- . . ‘Monolayer studies of methyl vic-dihydroxyoctadecanoates.’ Thin Solid Films 327-329, No. 1-2: 180–184. doi: 10.1016/S0040-6090(98)00624-5.
- . . ‘Molecular resolution of an organic monolayer by dynamic AFM.’ European Physical Journal B: Condensed Matter and Complex Systems 4, No. 3: 267–268.
- . . ‘Molecular property related silver decoration on fatty acid Langmuir-Blodgett monolayers.’ Thin Solid Films 327-329, No. 1-2: 268–272. doi: 10.1016/S0040-6090(98)00642-7.
- . . ‘Influence of oxygen on single molecule blinking.’ Advanced Materials 10, No. 17: 1469–1472. doi: 10.1002/(SICI)1521-4095(199812)10:171469::AID-ADMA1469>3.0.CO;2-O.
- . . ‘Fluorescence blinking and photobleaching of single terrylenediimide molecules studied with a confocal microscope.’ Journal of Physical Chemistry A 102, No. 46: 9109–9116. doi: 10.1021/jp981897d.
- . . ‘Dependence of the measured monolayer height on applied forces in scanning force microscopy.’ Thin Solid Films 327-329, No. 1-2: 262–267. doi: 10.1016/S0040-6090(98)00641-5.
- . . ‘Atomic force microscopic (AFM) study on a self-organizing polymer film.’ Polymer Bulletin 41, No. 6: 695–699. doi: 10.1007/s002890050420.
- . . ‘An STM study of chemically deposited silver nanoclusters on mixed self- assembled monolayers.’ Angewandte Chemie International Edition 37, No. 23: 3286–3289. doi: 10.1002/(SICI)1521-3773(19981217)37:233286::AID-ANIE3286>3.0.CO;2-1.
- . . ‘Analysis of the interactionmechanisms in dynamicmode SFM by means of experimental data and computer simulation.’ Applied Physics A 66, No. SUPPL. 1: S885–S889. doi: 10.1007/s003390051261.
- . . ‘Aluminium deposition on SF6 plasma-treated polycarbonate: An AFM, XPS and mass spectroscopy study.’ Surface and Interface Analysis 26, No. 4: 306–315. doi: 10.1002/(SICI)1096-9918(199804)26:4306::AID-SIA374>3.0.CO;2-V.
- . . ‘A low-temperature scanning tunneling microscopy investigation of single electron effects.’ Scanning 20, No. 4: 297–301. doi: 10.1002/sca.1998.4950200402.
- . . ‘A combined scanning ion-conductance and shear-force microscope.’ Probe Microscopy 1, No. 2: 187–200.
- . . ‘Sutural mineralization of rat calvaria characterized by atomic-force microscopy and transmission electron microscopy.’ Cell and Tissue Research 294, No. 1: 93. doi: 10.1007/s004410051159.
- . . ‘STM Investigations of Thiol Self-Assembled Monolayers.’ Advanced Materials 10, No. 11: 839–842.
- . . ‘Eine STM-Untersuchung chemisch abgeschiedener Silber-Nanocluster auf gemischten selbstorganisierten Monoschichten.’ Angewandte Chemie 110: 3480–3482. doi: 10.1002/(SICI)1521-3757(19981204)110:233480::AID-ANGE3480>3.0.CO;2-N.
- . . ‘Scanning probe microscopy study of the metal-rich layered chalcogenides TaM2Te2 (M = Co, Ni).’ Chemistry of Materials 10: 3870–3878. doi: 10.1021/cm980714x.
- . . ‘Investigation of electron induced damaging of molecular overlayers by imaging static secondary ion mass spectroscopy.’ Journal of Vacuum Science & Technology A 16, No. 6: 3449–3454. doi: 10.1116/1.581501.
- . . ‘Man made and self organized nanostructures.’ Journal of Surface Analysis 4, No. 2: 168–171.
- . . ‘Tip-sample interactions in scanning force microscopy using the frequency-modulation technique: Experiments and computer simulation.’ Europhysics Letters 39, No. 2: 153–158. doi: 10.1209/epl/i1997-00542-5.
- . . ‘The synthesis and non-linear optical properties of (N-alkylpyrrol-2-yl)squaraine derivatives. Part 1.’ Journal of the Chemical Society, Perkin Transactions 2 , No. 4: 827–832. doi: 10.1039/a604111f.
- . . ‘Terrylenediimide: A novel fluorophore for single-molecule spectroscopy and microscopy from 1.4 K to room temperature.’ Journal of Physical Chemistry A 101, No. 45: 8435–8440. doi: 10.1021/jp9719063.
- . . ‘Second-harmonic microscopy-A quantitative probe for molecular surface order.’ Advanced Materials 9, No. 13: 1061–1065. doi: 10.1002/adma.19970091315.
- . . ‘Physical properties of dynamic force microscopies in contact and noncontact operation.’ Annalen der Physik 6, No. 5: 341–363. doi: 10.1002/andp.19975090502.
- . . ‘On-line post consumer package identification by NIR spectroscopy combined with a FuzzyARTMAP classifier in an industrial environment.’ Applied Spectroscopy 51, No. 3: 362–368. doi: 10.1366/0003702971940215.
- . . ‘Nanoscale organized assembly of nanoparticulate TiO2-stearate monolayers through the Langmuir-Blodgett method.’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 15, No. 5: 1618–1622. doi: 10.1116/1.589559.
- . . ‘Morphology and in situ deformation of polyamide films investigated with scanning force microscopy.’ Surface and Interface Analysis 25, No. 7-8: 537–542. doi: 10.1002/(SICI)1096-9918(199706)25:7/8537::AID-SIA265>3.3.CO;2-I.
- . . ‘Molecular surface orientation field of a Langmuir monolayer determined by second-harmonic microscopy.’ Advanced Materials 9, No. 13: 1056–1060. doi: 10.1002/adma.19970091314.
- . . ‘Material contrast in scanning near-field optical microscopy at 1-10 nm resolution.’ Physical Review B - Condensed Matter 55, No. 12: 7977–7984. doi: 10.1103/PhysRevB.55.7977.
- . . ‘Interface imaging by second-harmonic microscopy.’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 15, No. 4: 1564–1568. doi: 10.1116/1.589401.
- . . ‘Influence of the evaporation rate on the packing order of polydisperse latex monofilms.’ Langmuir 13, No. 26: 7121–7124. doi: 10.1021/la970757c.
- . . ‘A new approach for the fabrication of an alternating multilayer film of poly(4-vinylpyridine) and poly(acrylic acid) based on hydrogen bonding.’ Macromolecular Rapid Communications 18, No. 6: 509–514. doi: 10.1002/marc.1997.030180609.
- . . ‘A low-temperature scanning confocal and near-field optical microscope.’ Review of Scientific Instruments 68, No. 6: 2466–2474. doi: 10.1063/1.1148170.
- . . ‘A combined STM, LEED and molecular modelling study of PTCDA grown on Ag(110).’ Surface Science 371, No. 1: 123–130. doi: 10.1016/S0039-6028(96)00981-8.
- . . ‘Buildup of composite films containing TiO2/PbS nanoparticles and polyelectrolytes based on electrostatic interaction .’ Langmuir 13, No. 19: 5168–5174. doi: 10.1021/la9703510.
- . . ‘Ultradünne organische Schichten.’ In Werkstoffe und Bauelemente der Elektrotechnik, edited by . B. G. Teubner Verlag.
- . . ‘Surface order and symmetry determined by second-harmonic microscopy.’ Supramolecular Science 4, No. 3-4: 263. doi: 10.1016/S0968-5677(97)00047-3.
- . . ‘Scanning near-field optical microscopy with a tetrahedral tip at a resolution of 6 NM.’ Journal of Biomedical Optics 1, No. 1: 75–78. doi: 10.1117/12.227700.
- . . ‘In-situ imaging of Langmuir monolayers by second-harmonic microscopy.’ Thin Solid Films 284-285: 659–662. doi: 10.1016/S0040-6090(95)08415-0.
- . . ‘Combined scanning force, lateral force, and scanning surface potential microscopy on phase-separated Langmuir-Blodgett films.’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 14, No. 2: 1503–1508. doi: 10.1116/1.589127.
- . . ‘Chemical identification of differing amphiphiles in mixed Langmuir-Blodgett films by scanning surface potential microscopy.’ Thin Solid Films 284-285: 403–407. doi: 10.1016/S0040-6090(95)08352-9.
- . . ‘Cantilever dynamics in quasinoncontact force microscopy: Spectroscopic aspects.’ Physical Review B - Condensed Matter 53, No. 23: 15485–15488. doi: 10.1103/PhysRevB.53.15485.
- . . ‘Basic properties of dynamic force spectroscopy with the scanning force microscope in experiment and simulation.’ Ultramicroscopy 66, No. 3-4: 251–259. doi: 10.1016/S0304-3991(97)00002-8.
- . . ‘Acoustic and dynamic force microscopy with ultrasonic probes.’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 14, No. 2: 877–881. doi: 10.1116/1.589166.
- . . ‘Chemical identifieation of differing amphiphiles in mixed Langmuir-Blodgett films by scanning surface potential microscopy (SSPM).’ Thin Solid Films 284-285, No. 1: 403–407. doi: 10.1016/S0040-6090(95)08352-9.
- . . ‘6 nm lateral resolution in scanning near field optical microscopy with the tetrahedral tip.’ In Near Field Optics: Recent Progress and Perspectives, edited by , 247–256.
- . . ‘Near Field Optics and Scanning Near Field Optical Microscopy .’ Contributed to the Quantum Optics of Confined Systems, Les Houches, Mai 1995.
- . . „Die Tetraedersonde - Optische Nahfeldmikroskopie mit 1 nm Ortsauflösung.“ Physikalische Blätter 52, No. 12: 1241–1242.
- . . ‘High Resolution Lithography with Near-Field Optical Microscopy.’ Scanning 18, No. 8: 567–571. doi: 10.1002/sca.4950180806.
- . . ‘Writing and deleting atomic scale structures with the scanning tunneling microscope.’ Thin Solid Films 254, No. 1-2: 147–152. doi: 10.1016/0040-6090(94)06256-K.
- . . ‘Structural rearrangements upon photoreorientation of amphiphilic azobenzene dyes organized in ultrathin films on solid surfaces.’ Langmuir 11, No. 1: 163–168. doi: 10.1021/la00001a029.
- . . ‘Growth of self-assembled n-alkyltrichlorosilane films on Si(100) investigated by atomic force microscopy.’ Langmuir 11, No. 6: 2143–2150. doi: 10.1021/la00006a049.
- . . ‘AFM and TEM investigations of polypropylene/polyurethane blends.’ Thin Solid Films 264, No. 2: 148–152. doi: 10.1016/0040-6090(95)05852-4.
- . . ‘1 MHz quartz length extension resonator as a probe for scanning near-field acoustic microscopy.’ Thin Solid Films 264, No. 2: 172–175. doi: 10.1016/0040-6090(95)05853-2.
- . . ‘Combined SIMS/SEM/SFM investigation of damage effects in molecular overlayers.’ In SIMS X, 619–622. John Wiley & Sons.
- . . ‘The tetrahedral tip as a probe for scanning near-field optical and for scanning tunneling microscopy.’ In Photons and Local Probes, edited by , 79–92. Springer VDI Verlag. doi: 10.1007/978-94-011-0423-4_6.
- . . ‘Fast identification of packaging waste by near infrared spectroscopy with an InGaAs array spectrograph combined with neural networks .’ Journal of Near Infrared Spectroscopy 3, No. 1: 3–9. doi: 10.1255/jnirs.49.
- . . ‘Atomic Force Microscopy Investigations on Polymer Latex Films.’ Surface and Interface Analysis 23, No. 6: 416–425. doi: 10.1002/sia.740230614.
- . . ‘The tetrahedral tip as a probe for scanning near-field optical microscopy at 30 nm resolution.’ Journal of Microscopy 176, No. 3: 231–237. doi: 10.1111/j.1365-2818.1994.tb03520.x.
- . . ‘Scanning force microscopy of the crystalline/amorphous interface of ultradrawn poly(ethylene).’ Applied Physics A: Solids and Surfaces 59, No. 2: 145–150. doi: 10.1007/BF00332207.
- . . ‘Investigations of phase-separated Langmuir-Blodgett films by atomic force microscopy.’ Thin Solid Films 242, No. 1-2: 151–156. doi: 10.1016/0040-6090(94)90520-7.
- . ‘Photoelectropoling of azobenzene chromophores in molecular films.’ Thin Solid Films 1994, No. 243: 669–674. doi: 10.1016/0040-6090(93)04003-B.
- . . ‘Improving the SAW gas sensor: device, electronics, and sensor layer.’ Sensors and Actuators B: Chemical 19, No. 1-3: 443–447. doi: 10.1016/0925-4005(93)01033-Z.
- . . ‘Photoelectropoling of azobenzene chromophores in molecular films.’ Thin Solid Films 243, No. 1-2: 669–674. doi: 10.1016/0040-6090(93)04003-B.
- . . „Löschbare Strukturen auf atomarer Skala.“ Physikalische Blätter 50, No. 6: 573–574.
- . . „SXM-Methoden - nützliche Werkzeuge für die Praxis?“ Physikalische Blätter 50, No. 9: 837–843.
- . . ‘Inhomogeneities of phase separated Langmuir-Blodgett films studied by atomic force microscopy.’ Journal of Vacuum Science & Technology B 12, No. 3: 1967–1972. doi: 10.1116/1.587681.
- . . ‘Characterization of thin organic films by scanned probe microscopies.’ Contributed to the EURADH'94, Mulhouse , FRANCE.
- . . ‘Epitaxial growth of silver on mica as studied by AFM and STM.’ Surface Science 313, No. 3: 275–288. doi: 10.1016/0039-6028(94)90048-5.
- . . ‘Applications of SFM in the chemical industry.’ Scanning 15, No. 5: 275–281. doi: 10.1002/sca.4950150506.
- . . ‘Domain structures in langmuir-blodgett films investigated by atomic force microscopy.’ Science 259, No. 5092: 213. doi: 10.1126/science.259.5092.213.
- . . „Oberflächenmodifikationen mit dem Rastertunnelmikroskop.“ In Metrologie in Physik und Technik, herausgegeben von , 19–34. Braunschweig: unbekannt / n.a. / unknown.
- . . ‘Layered Semiconductors for (Sub)Nanometer Scale Surface Modification with the STM.’ Contributed to the Manipulations of Atoms in High fields and Temperatures: Applications.
- . . ‘Lattice orientations of evaporated metals onto uniaxially oriented, semicrystalline, ultrathin polymer films.’ In Material Research Society (MRS), 345–350.
- . . ‘Local modification of Langmuir-Blodgett films by atomic force microscopy.’ Contributed to the Manipulations of Atoms in High fields and Temperatures: Applications.
- . . ‘Direct observation of Coulomb interactions in highly conducting [2,5-DMe-DCNQI]2Ag.’ Physical Review B 48, No. 7: 4891–4894. doi: 10.1103/PhysRevB.48.4891.
- . . ‘Atomic Force and Scanning Tunneling Microscopies of organic surfaces.’ Journal of Molecular Structure 292, No. 1: 29–48. doi: 10.1016/0022-2860(93)80088-D.
- . . ‘Surface morphology of nanocrystalline titanium oxide by AFM.’ Nanostructured Materials 3, No. 1-6: 273–281. doi: 10.1016/0965-9773(93)90089-T.
- . . ‘Chain folding in Polyethylene observed by SFM.’ Contributed to the SPG-Meeting 06.-08.04.92, Neuenburg (Schweiz).
- . . ‘Mechanical nanostructuring of WSe2 with the STM Tip shape dependence and writing techniques.’ Annales de Chimie: Science des Materiaux 17, No. 3-4: 205–216.
- . . ‘Time-Stable Modifications of Bare Surfaces on an Atomic Scale.’ Scanned probe microscopy 241, No. 1: 480–489. doi: 10.1063/1.41435.
- . . ‘Imaging Poly (1-Butene) films by SFM/STM.’ Scanned probe microscopy 241, No. 1: 262–268. doi: 10.1063/1.41420.
- . . ‘Investigating atomic-scale structures generated with the STM.’ Ultramicroscopy 42-44, No. 2: 1295–1302. doi: 10.1016/0304-3991(92)90438-P.
- . . ‘Gas detection in the ppb-Range with a high frequency,high sensitivity surface acoustic wave device.’ Thin Solid Films 210/211, 474-476, No. 2: 474–476. doi: 10.1016/0040-6090(92)90316-4.
- . . ‘Self assembled organic films on gold and silver.’ Thin Solid Films 210-211, No. 2: 799–802. doi: 10.1016/0040-6090(92)90408-4.
- . . ‘Atomically resolved STM imaging of ion bombarded WSe2.’ Ultramicroscopy 42-44, No. 1: 683–688. doi: 10.1016/0304-3991(92)90342-H.
- . . ‘Ordering of didodecylbenzene on graphite: a combined SFM/STM study.’ Ultramicroscopy 42-44, No. 2: 1059–1066. doi: 10.1016/0304-3991(92)90402-6.
- . . ‘STM Characterization of Nanostructured Palladium.’ Ultramicroscopy 42-44, No. 1: 594–598. doi: 10.1016/0304-3991(92)90329-I.
- . . ‘Investigation of Poly (1-Butene) films by SFM/STM.’ Ultramicroscopy 42-44, No. 2: 989–997. doi: 10.1016/0304-3991(92)90391-V.
- . . ‘Structure and stability of LB-films investigated by scanning force microscopy.’ Langmuir 8, No. 9: 2255–2261. doi: 10.1021/la00045a030.
- . . ‘Generation and manipulation of atomic-scale structures with the STM.’ physica status solidi (a) 131, No. 1: 47–57. doi: 10.1002/pssa.2211310109.
- . . ‘Annealing behaviour of ion-bombarded WSe2: a combined LEED and STM study.’ physica status solidi (a) 131, No. 1: 89–98. doi: 10.1002/pssa.2211310115.
- . . ‘Scanning Force Microscopy of nanostructured uniaxially oriented ultra thin film surfaces of isotactic polystyrene.’ Polymer 33, No. 24: 5331. doi: 10.1016/0032-3861(92)90821-D.
- . . ‘STM/AFM study of grain boundary migration in nanostructured solids.’ Materials Letters 15, No. 3: 180–185. doi: 10.1016/0167-577X(92)90141-6.
- . . ‘Defect structures of Langmuir-Blodgett films investigated by scanning force microscopy.’ Thin Solid Films 210-211, No. 2: 655–658. doi: 10.1016/0040-6090(92)90366-J.
- . . ‘Atomic sites of a bare surface modified with the scanning tunneling microscope.’ Advanced Materials 3, No. 2: 112–113. doi: 10.1002/adma.19910030212.
- . . ‘Characterization and modification of conducting substrates for ultrathin organic films by scanning tunneling microscopy.’ Advanced Materials 3, No. 1: 51–54. doi: 10.1002/adma.19910030110.
- . . ‘Ultrathin organic films: molecular architectures for advanced optical, electronical and bio-related systems.’ Advanced Materials 3, No. 1: 10–18. doi: 10.1002/adma.19910030103.
- . . ‘Surface structure of thin metallic films on mica as seen by STM, SEM and LEED.’ Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 9, No. 2: 857–857-861. doi: 10.1116/1.585527.
- . . ‘A new high frequency, high sensitivity SAW device for NO2 gas detection in the sub-ppm range.’ Sensors and Actuators B: Chemical 4, No. 1-2: 103–108. doi: 10.1016/0925-4005(91)80184-L.
- . . ‘Investigation and modification of free and adsorbate-covered surfaces by scanning tunneling microscopy.’ Materials Science and Engineering: A 139: 230–238. doi: 10.1016/0921-5093(91)90622-T.
- . . ‘Nanometer-size surface modifications with preserved atomic order generated by voltage pulsing.’ Applied Physics Letters 58, No. 10: 1039–1041. doi: 10.1063/1.104416.
- . . ‘High resolution STM-Imaging of Highly oriented ultra thin Poly(ethylene) films.’ Polymer Bulletin 27, No. 1: 101–107. doi: 10.1007/BF00296332.
- . . ‘Characterization of Poly(1-butene) surfaces by STM.’ Polymer Bulletin 26, No. 1: 95–100. doi: 10.1007/BF00299353.
- . . ‘Molecular resolution of Langmuir-Blodgett monolayers on tungsten diselenide by scanning tunneling microscopy .’ Zeitschrift für Physik B Condensed Matter 80, No. 3: 389–392. doi: 10.1007/BF01323521.
- . . ‘Atomic resolution of nanometer scale plastic surface deformations by scanning tunneling microscopy.’ Europhysics Letters 13, No. 4: 307–311. doi: 10.1209/0295-5075/13/4/004.
- . . ‘Surface investigations with a combined scanning electron-scanning tunneling microscope.’ Supramolecular Science 12, No. 3: 126–132. doi: 10.1002/sca.4950120303.
- . . „Strukturen, Farben, Kräfte - Wanderjahre der Raster-Tunnel-Mikroskopie.“ Physikalische Blätter 45, No. 4: 105–115.
- . . ‘A data acquisition and image processing system for Scanning Tunneling Microscopy.’ Supramolecular Science 11, No. 3: 139–146. doi: 10.1002/sca.4950110305.
- . . ‘Surface characterization of thin organic films by Scanning Tunneling Microscopy Proc.’ In Frontiers of Macromolecular Science, edited by , 499–504. Blackwell.
- . . ‘Surface structure investigation of LB-films.’ Thin Solid Films 159, No. 1-2: 301–314. doi: 10.1016/0040-6090(88)90642-6.
- . . ‘High resolution STM-studies on graphite and Langmuir-Blodgett films.’ Physica Scripta 38, No. 2: 264–268. doi: 10.1088/0031-8949/38/2/030.
- . . ‘STM-investigation of Langmuir-Blodgett films.’ Surface Science 181, No. 1-2: 391–393. doi: 10.1016/0039-6028(87)90182-8.
- . . ‘Rastertunnelmikroskopie an Graphitoberflächen.’ Fresenius' Journal of Analytical Chemistry 329, No. 2-3: 113–115. doi: 10.1007/BF00469120.
- . . ‘Unoccupied electronic states of a graphite surface as observed by local tunneling spectroscopy.’ EPL (Europhysics Letters) 3, No. 6: 745–749. doi: 10.1209/0295-5075/3/6/015.
- . . ‘Generation of high sensitivity strain gauges by means of tunneling in discontinuous metallic films.’ Thin Solid Films 137, No. 1: L34–L46. doi: 10.1016/0040-6090(86)90203-8.
- . . ‘Surface diffusion of oxygen atoms individually observed by STM.’ Surface Science 169, No. 2-3: L295–L300. doi: 10.1016/0039-6028(86)90596-0.
- . . ‘Tunneling microscopy and spectroscopy of semiconductor surfaces and interfaces .’ Surface Science 168, No. 1-3: 734–743. doi: 10.1016/0039-6028(86)90905-2.
- . . ‘Scanning tunneling microscope combined with a scanning electron microscope.’ Review of Scientific Instruments 57, No. 2: 221–224. doi: 10.1063/1.1138973.
- . . ‘Energy-dependent state-density corrugation of a graphite surface as seen by Scanning Tunneling Microscopy.’ Europhysics Letters 1, No. 1: 31–36. doi: 10.1209/0295-5075/1/1/005.
- . . ‘Tunneling spectroscopy and inverse photoemission: Image and field states.’ Physical Review Letters 55, No. 9: 991–994.
- . . ‘An experimental system for x-ray microanalysis, digital electron-beam control and image processing.’ Supramolecular Science 7, No. 6: 291–296. doi: 10.1002/sca.4950070603.
- . . ‘Au/Si(111) Overlayer: Characterization by Tunneling Microscopy and Spectroscopy.’ Surface Science 162, No. 1-3: 634–639. doi: 10.1016/0039-6028(85)90959-8.
- . . ‘Use of paraffins as negative-acting electron-sensitive resists.’ Journal of Applied Physics 58, No. 2: 1056–1057. doi: 10.1063/1.336312.
- . . ‘A semiconductor electron current detector for the direct recording of electron microscopic diffraction images.’ Supramolecular Science 6, No. 4: 187–190. doi: 10.1002/sca.4950060407.
- . . ‘Is the impact velocity of vacuum deposited atoms of significance for the film structure?’ Thin Solid Films 101, No. 1: 55–59. doi: 10.1016/0040-6090(83)90492-3.
- . . ‘FOQUS: A Fortran program for the quantitative analysis of x-ray spectra from thin biological specimens.’ Scanning Electron Microscopy : 377–394.
- . . ‘The use of frozen-hydrated bulk specimens for x-ray microanalysis.’ Scanning Electron Microscopy : 371–382.
Supervised Theses
Supervised Doctoral Studies
Kumar, Ravi Multi-color polymer pen lithography and its application in biology Diaz Arado, Oscar On-Surface Synthesis: A Bottom-Up Approach to Develop Functional Nanostructures on Surfaces Brinkmann, Falko Multiplexed Micro-Lithography Falter, Jens Field Ion Microscopy Characterized Tungsten Tips in Non-Contact Atomic Force Spectroscopy: Identification and Quantification of Interatomic Long Range Forces Langewisch, Gernot Kraftspektroskopie an organischen Molekülen: Kraftfelder, Energietransfer und Manipulation Du, Chuan Optimierung von morphologischen, strukturellen und elektrischen Eigenschaften organischer Halbleiterdünnschichten durch Oberflächenbehandlung Hentschel, Carsten Local Mechanical and Electrical Measurements on Molecular Assemblies Using Atomic Force Microscopy Franke, Jörn-Holger Functional molecules at interfaces studied by Density Functional Theory Braun, Daniel-Alexander Submolecular Features of Organic Molecules on Metal Substrates Analyzed by Force Field Spectroscopy Ebeling, Daniel Mechanical and Electrical Measurements on the Nanoscale Using Atomic Force Microscopy in Ambient Conditions and Liquids Schmutz, Jan-Erik Adhäsions- und Abriebuntersuchungen mittels rasterkraftmikroskopischer Techniken auf der Mikro- und Nanoskala Jansen, Lars Influence of Temperature on the Tribological Properties of Nano-Scale Contacts Hirtz, Michael Surface Structuring by Bottom-Up and Top-Down Apporaches Taskiran, Ahmet Charakterisierung der Ionendynamik in nanoskopischen Volumina: Zeitabhängige elektrostatische Rasterkraftspektroskopie von Festkörperelektrolyten Maletzky, Tobias Kanten- und Oberflächenplasmonen in der Nahfeldmikroskopie mit der Tetraedersonde Weiner, Domenique Dynamische Kraftmikroskopie und -spektroskopie an Atomen und Molekülen Molenda, Daniel Scanning Near-Field Optical Microscopy (SNOM) with a Triangular Aperture Probe Vakhrushev, Sergey Mass Spectrometric Methods and Bioinformatics for Glycomics: Applications to Congenital Disorders of Glycosylation Froesch, Martin Entwicklung von Meßmethoden zur Analyse von Biomolekülen mittels Fourier Transform Ionen Zyklotron Resonanz Massenspektrometrie Schäfer, Marcus Integration einer gesteuerten Elektronen-quelle in eine Silizium-Rasterkraftmikroskop-Sonde Höppener, Christiane Optische Rasternahfeldmikroskopie an funktionell intakten biologischen Membranen in Flüssigkeiten Ellerbrake, Rainer Adsorptionsmechanismen von Perylen und PTCDA auf Ag(110) Oberdörfer, York Mechanik von Einzelmolekülen - Kraftspektroskopie an Biopolymeren unter verschiedenen Bedingungen am Beispiel von Fibronektin, DNA und Fibrillin Maas, Hans-Jürgen Optische Nahfeldmikroskopie an Photonischen Nanostrukturen Poppensieker, Jan Über die Präparation epitaktischer Schichten organischer Donatoren - TTF-Derivate auf metallischen (100)-Oberflächen Heimel, Jörg Optische Rasternahfeldmikroskopie mit einer Tetraeder-sonde an molekularen Systemen Krüger, Daniel Simulation of the Bond Rupture Process of Thiolate on Gold Höppener, Stephanie Chemisch funktionelle Nanostrukturen und ihre gezielte Modifikation an der Oberfläche Gleiche, Michael Verfahren zur Herstellung periodischer Strukturen durch Benetzungsinstabilitäten Kopf, Heiko Untersuchung substratorientierter Ordnungsvorgänge von OMBE-Schichten und heteroepitaktische Herstellung lateral separierter Mischfilme Gotsmann, Bernd Dynamische Kraftspektroskopie Göhde, Wolfgang Fluoreszenz einzelner Farbstoffmoleküle in einem konfokalen und nahfeld-optischen Mikroskop Schäfer, Andreas Hochgeordnete Perylenderivat Mono- und Multilagen auf Ag(110) und Au(110) – Schichtwachstum und optische Spektroskopie Jacobi, Sandra Ordnungsphänomene in vicinalen Dihydroxyalkansäuren und ihren Estern Brillert, Christof Summenfrequenz-Mikroskopie zur Abbildung der Infrarot-Eigenschaften von Grenzflächen Neitzert, Marcus Kraftspektroskopie: Von der van-der-Waals-Wechselwirkung zur Mechanik von Einzelmolekülen Ferber, Jörg Ein optisches Rasernahfeldmikroskop mit der Tetraedersonde in einer internen Reflexionsanordnung Drechsler, Doris Rasterkraftmikroskopische Untersuchungen zu materialspezifischen Eigenschaften von Polymeren und ihren Blendsystemen Drechsler, Till Untersuchungen von Einzelelektronen-effekten mit einem Tieftemperatur-Rastertunnelmikroskop im Ultrahochvakuum Anczykowski, Boris Experimentelle und theoretische Unter-suchungen zur dynamischen Rasterkraft-mikroskopie Becker, Gernot Untersuchungen elektroneninduzierter thermischer und akustischer Effekte mit dem kombinierten Rasterelektronen-/Rasterkraftmikroskop Feldhoff, Roger Entwicklung eines Verfahrens zur schnellen berührungslosen Erkennung von Kunststoffen mittels NIR-Spektroskopie Koglin, Jürgen Optische Nahfeldmikroskopie mit der Tetraedersonde Supervised Habilitations
Mönig, Harry Correlating Macroscopic and Nanoscale Phenomena in Interface Science Hirtz, Michael Scanning Probe Lithography for bioactive Functionalization Schirmeisen, André Beyond Imaging: Atomic Force Microscopy for Nanoscale Material Analysis Schäffer, Tilman Mechanics and Dynamics of Biomolecules and Nanostructures with Improved Scanning Probe Microscopes Naber, Andreas Contributions to Near-Field Optical Microscopy: New Methods and Applications Chi, Lifeng Ordered nanostructures in thin organic films and their characterization by scanning force microscopy Flörsheimer, Mathias Second-harmonic Imaging of Surface Order and Symmetry
Prof. Dr. Harald Fuchs
