Harry Heinzelmann
Harry Heinzelmann
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FluidFM: combining atomic force microscopy and nanofluidics in a universal liquid delivery system for single cell applications and beyond
A Meister, M Gabi, P Behr, P Studer, J Vörös, P Niedermann, J Bitterli, ...
Nano letters 9 (6), 2501-2507, 2009
Observation of magnetic forces by the atomic force microscope
JJ Saenz, N Garcia, P Grütter, E Meyer, H Heinzelmann, R Wiesendanger, ...
Journal of applied physics 62 (10), 4293-4295, 1987
Scanning near-field optical microscopy
H Heinzelmann, DW Pohl
Applied Physics A 59, 89-101, 1994
Molecular-resolution images of Langmuir–Blodgett films using atomic force microscopy
E Meyer, L Howald, RM Overney, H Heinzelmann, J Frommer, ...
Nature 349 (6308), 398-400, 1991
Amphiphilic dendrimers: novel self-assembling vectors for efficient gene delivery
D Joester, M Losson, R Pugin, H Heinzelmann, E Walter, HP Merkle, ...
Angewandte Chemie-International Edition 42 (13), 1486-1490, 2003
Nanoscale patterning with block copolymers
S Krishnamoorthy, C Hinderling, H Heinzelmann
Materials Today 9 (9), 40-47, 2006
Organometallic block copolymers as catalyst precursors for templated carbon nanotube growth
C Hinderling, Y Keles, T Stöckli, HF Knapp, T De Los Arcos, P Oelhafen, ...
Advanced materials 16 (11), 876-879, 2004
Nanodispenser for attoliter volume deposition using atomic force microscopy probes modified by focused-ion-beam milling
A Meister, M Liley, J Brugger, R Pugin, H Heinzelmann
Applied Physics Letters 85 (25), 6260-6262, 2004
Comparative study of lithium fluoride and graphite by atomic force microscopy (AFM)
E Meyer, H Heinzelmann, P Grütter, T Jung, T Weisskopf, HR Hidber, ...
Journal of Microscopy 152 (1), 269-280, 1988
Tuning the Dimensions and Periodicities of Nanostructures Starting from the Same Polystyrene‐block‐poly(2‐vinylpyridine) Diblock Copolymer
S Krishnamoorthy, R Pugin, J Brugger, H Heinzelmann, C Hinderling
Advanced Functional Materials 16 (11), 1469-1475, 2006
Scanning force microscopy (SFM)
E Meyer, H Heinzelmann
Scanning Tunneling Microscopy II: Further Applications and Related Scanning …, 1992
Increased plasticity of the stiffness of melanoma cells correlates with their acquisition of metastatic properties
G Weder, MC Hendriks-Balk, R Smajda, D Rimoldi, M Liley, ...
Nanomedicine: Nanotechnology, Biology and Medicine 10 (1), 141-148, 2014
Application of atomic force microscopy to magnetic materials
P Grütter, E Meyer, H Heinzelmann, L Rosenthaler, HR Hidber, ...
Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 6 (2 …, 1988
Near-field fluorescence imaging with 32 nm resolution based on microfabricated cantilevered probes
R Eckert, JM Freyland, H Gersen, H Heinzelmann, G Schürmann, W Noell, ...
Applied Physics Letters 77 (23), 3695-3697, 2000
Ferroelectric domain characterisation and manipulation: a challenge for scanning probe microscopy
LM Eng, MBC Loppacher, MGR Bennewitz, R Lüthi, EMT Huser, ...
Ferroelectrics 222 (1), 153-162, 1999
Atomic force microscopy for the study of tribology and adhesion
E Meyer, H Heinzelmann, P Grütter, T Jung, HR Hidber, H Rudin, ...
Thin Solid Films 181 (1-2), 527-544, 1989
Formation of gradients of proteins on surfaces with microfluidic networks
I Caelen, A Bernard, D Juncker, B Michel, H Heinzelmann, E Delamarche
Langmuir 16 (24), 9125-9130, 2000
Atomic resolution on LiF (001) by atomic force microscopy
E Meyer, H Heinzelmann, H Rudin, HJ Güntherodt
Zeitschrift für Physik B Condensed Matter 79 (1), 3-4, 1990
Contrast enhancement using polarization-modulation scanning near-field optical microscopy (PM-SNOM)
T Lacoste, T Huser, R Prioli, H Heinzelmann
Ultramicroscopy 71 (1-4), 333-340, 1998
Block copolymer micelles as switchable templates for nanofabrication
S Krishnamoorthy, R Pugin, J Brugger, H Heinzelmann, AC Hoogerwerf, ...
Langmuir 22 (8), 3450-3452, 2006
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