GROUP PUBLICATIONS

2008

Artefact-free dynamic atomic force microscopy reveals monotonic dissipation for a simple confined liquid, G.B. Kaggwa, J.I. Kilpatrick, J.E. Sader, S.P. Jarvis, Applied Physics Letters (accepted for publication).

Revealing molecular-level surface structure of amyloid fibrils by frequency modulation atomic force microscopy in liquid, T. Fukuma, A.S. Mostaert, L.C. Serpell, S.P. Jarvis, Nanotechnology (accepted for publication).

Frequency Modulation Atomic Force Microscopy in Liquids, S.P. Jarvis, John E. Sader and Takeshi Fukuma, book chapter, Applied Scanning Probe Methods VIII - Scanning Probe Microscopy Techniques, Springer, Eds. Bharat Bhushan, Harald Fuchs, Masahiko Tomitori. (2008).

Stimulation of nitric oxide mechanotransduction in single osteoblasts using atomic force microscopy, J.G. McGarry, P. Maguire, V.A. Campbell, B.C. O’Connell, P.J. Prendergast and S.P. Jarvis, Journal of Orthopedic Research, 26 (4), 513–521 (2008).

2007

Direct mechanical measurement of geodesic structures in rat mesenchymal stem cells, P. Maguire, J. I. Kilpatrick, G. Kelly, P.J. Prendergast, V. A. Campbell, B. C. O’Connell, and S.P. Jarvis, HFSP Journal, 1(3), 181-191 (2007).

Direct Imaging of Lipid-Ion Network Formation under Physiological Conditions by Frequency Modulation Atomic Force Microscopy, Takeshi Fukuma, Michael J. Higgins, Suzanne P. Jarvis, Phys. Rev. Lett. 98, 106101 (2007) .

Direct Imaging of Individual Intrinsic Hydration Layers on Lipid Bilayers at Ångstrom Resolution, Takeshi Fukuma, Michael J. Higgins, Suzanne P. Jarvis, Biophysical Journal 92:3603-3609 (2007).

Functional amyloid: Mechanical strength revealed by atomic force microscopy, Suzanne P. Jarvis and A.M. Mostaert, G.I.T Imaging & Microscopy 2/2007.

Beneficial characteristics of mechanically functional amyloid fibrils evolutionarily preserved in natural adhesives, A.S. Mostaert and S.P. Jarvis, Nanotechnology 18 (2007) 044010.

The Effect of Solvent Upon Molecularly Thin Rotaxane Film Formation, Alan A. Farrell, Euan R. Kay, Giovanni Bottari, David A. Leigh, Hirofumi Yamada, and Suzanne P. Jarvis, Applied Surface Science, 253, 6090-6095 (2007).

2006

Phase modulation atomic force microscope with true atomic resolution, Takeshi Fukuma, Jason Kilpatrick, and Suzanne Jarvis, Review of Scientific Instruments 77 123703 (2006).

Coupling of conservative and dissipative forces in frequency modulation atomic force microscopy, J.E. Sader and S.P. Jarvis, Phys. Rev. B. 74, 195424 (2006).

Nanoscale mechanical characterization of amyloid fibrils discovered in a natural adhesive, A.S. Mostaert, M.J. Higgins, T.Fukuma, F. Rindi and S.P. Jarvis, J. Biol. Phys. (2006), 32 (5), 393-401 (2006).

AFM in Liquid - A High Sensitivity Study on Biological Membranes, M.J. Higgins, T. Fukuma and S.P. Jarvis, G.I.T Imaging & Microscopy 3/2006.

Explanation for the Mechanical Strength of Amyloid Fibrils, T. Fukuma, A.S. Mostaert, S.P. Jarvis, Tribology Letters, Vol. 22. No. 3. (2006).

Structured Water Layers Adjacent to Biological Membranes, M.J. Higgins, M. Polcik, T. Fukuma, J.E. Sader, Y. Nakayama & S.P. Jarvis, Biophysical Journal 91, 2532-2542 (2006).
(listen to a podcast of Dr. Higgins discussing this publication)

Development of Liquid-Environment Frequency Modulation Atomic Force Microscope with Low Noise Deflection Sensor for Cantilevers of Various Dimensions, Takeshi Fukuma and Suzanne P. Jarvis, Review of Scientific Instruments 77, No 1, 043701 (2006).

Non-invasive Determination of Optical Lever Sensitivity in Atomic Force Microscopy, M. J. Higgins, R. Proksch, J. E. Sader, M. Polcik, S. Mc Endoo, J. P.Cleveland and S. P. Jarvis, Review of Scientific Instruments 77, No 1, 013701 (2006).

Frequency modulation AFM reveals individual intermediates associated with each unfolded I27 titin domain, M.J. Higgins, J.E. Sader, and S.P. Jarvis , Biophysical Journal 90, 640-647 (2006).

2005

Conservative and Dissipative Force Imaging of Switchable Rotaxanes with Frequency Modulation Atomic Force Microscopy, Alan A. Farrell, Takeshi Fukuma, Takayuki Uchihashi, Euan R. Kay, Giovanni Bottari,David A. Leigh, Hirofumi Yamada, and Suzanne P. Jarvis, Physical Review B 72, 125430 (2005).

Quantitative measurement of solvation shells using frequency modulated atomic force microscopy, T. Uchihashi, M.J. Higgins, J.E. Sader, S.P. Jarvis, Nanotechnology 16(2005) S40-S53.

Quantitative force measurements using frequency modulation atomic force microscopy - theoretical foundations, J. E. Sader, T. Uchihashi, M. J. Higgins, A. Farrell, Y. Nakayama, and S.P. Jarvis, Nanotechnology, 16(2005) S94-S101.

Frequency modulation atomic force microscopy: a dynamic measurement technique for biological systems, Michael J. Higgins, Christian K. Riener, Takayuki Uchihashi, J.E. Sader, Rachel McKendry and Suzanne P. Jarvis,  Nanotechnology, 16(2005) S85-S89.

2004

Quantitative force measurements in liquid using frequency modulation atomic force microscopy, T. Uchihashi, M. J. Higgins, S. Yasuda, S. P. Jarvis, S. Akita, Y. Nakayama, and J. E. Sader, App. Phys. Lett., 85, 3575-3577 (2004).

Interpretation of frequency modulation atomic force microscopy using fractional calculus, J. E. Sader and S. P. Jarvis Phys. Rev. B, 70, 012303 (2004).

Accurate Formulas for Interaction Force and Energy in Frequency Modulation Force Spectroscopy, J. E. Sader and S. P. Jarvis, Appl. Phys. Lett., 84, 1801-1803 (2004).

2003

Application of carbon nanotubes to topographical resolution enhancement of tapered fiber SNOM probes,  S. S. T. Huntington and S. P. Jarvis,  Rev. Sci. Inst., 74, 2933-2935 (2003).