Publications

Found 134 results
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E
Battiston, F. et al. E. MEYER, M. GUGGISBERG, CH. LOPPACHER. Impact of Electron and Scanning Probe Microscopy on Materials Research 339 (1999).
Battiston, F. et al. E. MEYER, M. GUGGISBERG, CH. LOPPACHER. Impact of Electron and Scanning Probe Microscopy on Materials Research 339 (1999).
C
Feynman, R. P. et al. CSIS-181 Section 1346. (Submitted).
Sharma, S. et al. Correlative nanomechanical profiling with super-resolution F-actin imaging reveals novel insights into mechanisms of cisplatin resistance in ovarian cancer cells. Nanomedicine: Nanotechnology, Biology and Medicine 8, 757–766 (2012).
III, A. J. Ashe et al. Core-ionization energies and the anomalous basicity of arsabenzene and phosphabenzene. Journal of the American Chemical Society 101, 1764–1767 (1979).
III, A. J. Ashe et al. Core-ionization energies and the anomalous basicity of arsabenzene and phosphabenzene. Journal of the American Chemical Society 101, 1764–1767 (1979).
Gimzewski, J. K., Humbert, A., Bednorz, J. G. & Reihl, B. A comparative study of coldly-and warmly-condensed Ag films by scanning tunneling microscopy. Surface Science 162, 961–964 (1985).
Chisholm, M. F. et al. Comment on" Single Crystals of Single-Walled Carbon Nanotubes Formed by Self-Assembly". Science 300, 1236–1236 (2003).
Johansson, P., Berndt, R., Gimzewski, J. K., Apell, S. P. & ,. Comment on“Physical Picture for Light Emission in Scanning Tunneling Microscopy”. Physical review letters 84, 2034–2034 (2000).
Scandella, L. et al. Combination of single crystal zeolites and microfabrication: Two applications towards zeolite nanodevices. Microporous and mesoporous materials 21, 403–409 (1998).
Scandella, L. et al. Combination of single crystal zeolites and microfabrication: Two applications towards zeolite nanodevices. Microporous and mesoporous materials 21, 403–409 (1998).
Lang, H. P. et al. A chemical sensor based on a micromechanical cantilever array for the identification of gases and vapors. Applied Physics A: Materials Science & Processing 66, S61–S64 (1998).
Lang, H. P. et al. A chemical sensor based on a micromechanical cantilever array for the identification of gases and vapors. Applied Physics A: Materials Science & Processing 66, S61–S64 (1998).
Lang, H. P. et al. A chemical sensor based on a micromechanical cantilever array for the identification of gases and vapors. Applied Physics A: Materials Science & Processing 66, S61–S64 (1998).
Battiston, F. M. et al. A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout. Sensors and Actuators B: Chemical 77, 122–131 (2001).
Battiston, F. M. et al. A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout. Sensors and Actuators B: Chemical 77, 122–131 (2001).
Baller, M. K. et al. Charras, GT, see Lehenkari, PP 82 (2000) 289. Ultramicroscopy 82, 310 (2000).
Baller, M. K. et al. Charras, GT, see Lehenkari, PP 82 (2000) 289. Ultramicroscopy 82, 310 (2000).
Berndt, R. & Gimzewski, J. K. Atomic and Nanometer-Scale Modification of Materials: Fundamentals and Applications 327–335 (Springer Netherlands, 1993).
Park, K. K. et al. Capacitive micromachined ultrasonic transducers for chemical detection in nitrogen. Applied Physics Letters 91, 094102 (2007).
BALLER, M. et al. CANTILEVER SENSORS AND TRANSDUCERS. (2001).
Baller, M. K. et al. Cantilever sensors and transducers. (2009).
Baller, M. K., Fritz, J., Gerber, C., Gimzewski, J. & Lang, H. Peter. CANTILEVER SENSORS AND TRANSDUCERS. (2004).
Baller, M. K. et al. A cantilever array-based artificial nose. Ultramicroscopy 82, 1–9 (2000).
Baller, M. K. et al. A cantilever array-based artificial nose. Ultramicroscopy 82, 1–9 (2000).
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Khuri-Yakub, B. T. et al. 6D-1 The Capacitive Micromachined Ultrasonic Transducer (CMUT) as a Chem/Bio Sensor. Ultrasonics Symposium, 2007. IEEE 472–475 (IEEE, 2007).

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