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A New World Of Ultra Soft BioSPM With The Nanonics HydraTM
 | | Biophysics: Feeling a Protein
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| | | | Axelrod, N. et al. Near-Field Optical and Atomic Force Constraints for Super-Resolution 3D Deconvolutions in Far-Field Optical Microscopy
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| | | The Realization of Nanometric 3D Far-Field Optical Imaging - A Position Paper
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| | | | Why Would a Cell Biologist Who Owns a Laser Scanning Confocal Non-Linear Optical or CCD Light Microscope Want to Place the Nanonics NSOM/AFM 100TM on their Microscope Stage?
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| | | Taha, H. et al. Protein Printing with an Atomic Force Sensing Nanofountainpen
Applied Physics Letters Vol. 83, No. 5: 1041-1043 |
| | | | Strinkovski, A. et al. Near-Field Optical Chemical Imaging of Surfaces and Near-Surface Regions with Externally Illuminated Near-Field, Force-Sensing, Chemically Sensitive, Cantilevered Micropipette Probes
Israel Journal of Chemistry Vol. 41: 129-137 |
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| | | Khatchatouriants, A. et al. GFP is a Selective Non-Linear Optical Sensor of Electrophysiological Processes in Caenorhabditis elegans
Biophysical Journal Vol. 79: 2345-2352 |
| | | | Lewis, A. et al. Fountain Pen Nanochemistry: Atomic Force Control of Chrome Etching
Applied Physics Letters Vol. 75, No. 17: 2689-2691 |
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| | | Peleg, G. et al. Nonlinear Optical Measurement of Membrane Potential Around Single Molecules at Selected Cellular Sites
Proc. Natl. Acad. Sci. USA Vol. 96: 6700-6704 |
| | | | Near-Field Scanning Optical Microscopy in Cell Biology
Trends in Cell Biology Vol. 9: 70-73 |
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| | | Shao, Y. et al. Nanometer-Sized Electrochemical Sensors
Analytical Chemistry Vol. 69, No. 8: 1627-1634 |
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Nanonics Hydra- BioSPM Microscope
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