Publications

 

2012

Stability enhancement of an atomic force microscope for long-term force measurement including cantilever modification for whole cell deformation, Weafer, P. P., McGarry, J. P., van Es, M. H., Kilpatrick, J. I., Ronan, W., Nolan, D. R., Jarvis, S. P., Review of Scientific Instruments, 83, 093709, (2012).

Visualizing Molecular Polar Order in Tissues via Electromechanical Coupling, Denning, D., Alilat, S., Habelitz, S., Fertala, A., and Rodriguez, B.J., Journal of Structural Biology, 180, 409–419, (2012).

Photoreduction of SERS-Active Metallic Nanostructures on Chemically-Patterned Ferroelectric Crystals, Carville, N. C., Manzo, M., Damm, S., Castiella, M., Collins, L., Denning, D., Weber, S. A. L., Gallo, K., Rice, J. H., and Rodriguez, B. J., ACS Nano, 6, 7373–7380, (2012).

Electromechanical properties of dried tendon and iso-electrically focused collagen hydrogels, Denning, D., Abu-Rub, M.T., Zeugolis, D.I., Habelitz, S., Pandit, A., Fertala, A., and Rodriguez, B.J., Acta Biomaterialia, 8, 3073-3079, (2012).

Atomic force microscopy: an enabling nanotechnology for diabetes research, Rodriguez, B. J., and Jarvis, S. P. Book chapter in Nanotechnology & Nanomedicine in Diabetes, edited by L.-A. Le, R.J. Hunter, and V.R. Preedy, Science Publishers, Enfield, New Hampshire, 34-58 (2012).

KPFM and PFM of biological systems, Rodriguez, B. J., and Kalinin, S. V. Book chapter in Kelvin probe force microscopy, edited by S. Sadewasser, Th. Glatzel, Springer Science+Business Media, New York, 243-287 (2012).

The Impact of Hydrophilic/Hydrophobic Surface Chemistry on Hydration Forces in the Absence of Confinement, Kaggwa, G., Nalam, P. C., Kilpatrick, J. I., Spencer, N. D., Jarvis, S. P., Langmuir, 28, 16, 6589–6594, (2012).

The Morphology of Decorated Amyloid Fibers is Controlled by the Conformation and Position of the Displayed Protein, Forman, C. J., Nickson, A. A., Anthony-Cahill, S. J., Baldwin, A. J., Kaggwa, G., Feber U., Sheikh K., Jarvis, S. P., Barker, P. D., ACS Nano, 6, 2, 1332–1346, (2012).

Differing modes of interaction between monomeric Aβ_1–40 peptides and model lipid membranes: an AFM study, Sheikh, K., Giordani, C., McManus, J. J., Hovgaard, M. B., Jarvis, S. P., Chemistry and Physics of Lipids, 165, 2, 142–150, (2012).

 

2011

Crystalline Hydration Structure at the Membrane Fluid Interface of Model Lipid Rafts Indicates a Highly Reactive Boundary Region, Sheikh, K. H. and Jarvis, S. P., Journal of the American Chemical Society, 133, 18296–18303, (2011).

Bone Cell Elasticity and Morphology Changes during the Cell Cycle, Kelly, G. M., Kilpatrick, J. I., van Es, M. H., Weafer, P. P., Prendergast, P. J., Jarvis, S. P., Journal of Biomechanics, 44, 8, 1484-1490, (2011).

Direct Submolecular Scale Imaging of Mesoscale Molecular Order in Supported Dipalmitoylphosphatidylcholine Bilayers, Sheikh, K. H., Giordani, C., Kilpatrick, J. I., Jarvis S. P., Langmuir, 27, 7, 3749-3753, (2011).

Direct imaging of salt effects on lipid bilayer ordering at sub-molecular resolution, Ferber, U. M., Kaggwa, G. B., Jarvis, S. P., European Biophysics Journal, 40, 3, 329-338, (2011).

Nano-textured self-assembled aligned collagen hydrogels promote directional neurite guidance and overcome inhibition by myelin associated glycoprotein, Abu-Rub, M.T., Billiar, K.L., van Es, M.H., Knight, A.  Rodriguez, B.J., Zeugolis, D.I., McMahon, S., Windebank, A.J., and Pandit, A., Soft Matter, 7, 2770-2781, (2011).

 

2010

Visualization of Ion Distribution at the Mica-Electrolyte Interface, Loh, S. H. and Jarvis, S. P., Langmuir, 26, 12, 9176 - 9178, (2010).

 

2009

Mechanically functional amyloid fibrils in the adhesive of a marine invertebrate as reveled by raman spectroscopy and atomic force microscopy, Mostaert, A. S., Crockett, R., Kearn, G., Cherney, I., Gazit, E., Serpell, L. C. and Jarvis, S. P., Archives of Histology and Cytology, 72, 4/5, 199-207, (2009).

Luminescent self-assembly formation on a gold surface observed by reversible'off-on'switching of Eu (III) emission, Murray, N. S., Jarvis, S. P., and Gunnlaugsson, T., Chemical Communications, 4959, (2009).

Characterisation of Amyloid Nanostructures in the Natural Adhesive of Unicellular Subaerial Algae, Mostaert, A. S., Giordani, C., Crockett, R., Karsten, U., Schumann, R., and Jarvis, S. P., The Journal of Adhesion, 85, 465-483, (2009).

Frequency modulation atomic force microscopy in ambient environments utilizing robust feedback tuning , Kilpatrick, J. I., Gannepalli, A., Cleveland, J. P., and Jarvis, S. P., Review of Scientific Instruments, 80, 023701, (2009). [PDF]

Biological Applications of FM-AFM in Liquid Environment, Fukuma, T., and Jarvis, S. P. Book chapter in Noncontact Atomic Force Microscopy, Springer Berlin Heidelberg, 329-345, (2009).

The dispersion of SWCNT bundles on interaction with p-Terphenyl, Hedderman, T. G., Mostaert, A. S., Shanahan, A. E., and Byrne, H. J., New Carbon Materials, 24, 73-82, (2009).

 

2008

Artifact-free dynamic atomic force microscopy reveals monotonic dissipation for a simple confined liquid , Kaggwa, G. B., Kilpatrick, J. I., Sader, J. E., and Jarvis, S. P., Applied Physics Letters, 93, 011909, (2008). [PDF]

Revealing molecular-level surface structure of amyloid fibrils by frequency modulation atomic force microscopy in liquid, Fukuma, T., Mostaert, A. S., Serpell, L. C., and Jarvis, S. P., Nanotechnology, 19, 384010, (2008).

Frequency Modulation Atomic Force Microscopy in Liquids, Jarvis, S. P., Sader, J. E., and Fukuma, T. Book chapter in Applied Scanning Probe Methods VIII, Springer Berlin Heidelberg, 315-350, (2008).

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

 

 

2007

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

Direct Imaging of Lipid-Ion Network Formation under Physiological Conditions by Frequency Modulation Atomic Force Microscopy, Fukuma, T., Higgins, M. J., and Jarvis, S. P., Physical Review Letters, 98, 106101, (2007). [PDF]

Direct Imaging of Individual Intrinsic Hydration Layers on Lipid Bilayers at Ångstrom Resolution, Fukuma, T., Higgins, M. J., and Jarvis, S. P., Biophysical Journal, 92, 3603-3609, (2007).

Functional amyloid: Mechanical strength revealed by atomic force microscopy, Jarvis, S. P., and Mostaert, A. S., GIT Imaging & Microscopy, 51, 415-417, (2007).

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

The Effect of Solvent Upon Molecularly Thin Rotaxane Film Formation, Farrell, A. A., Kay, E. R., Bottari, G., Leigh, D. A., and Jarvis, S. P., Applied Surface Science, 253, 6090-6095, (2007).

Aeroterrestrial Algae Growing on Man-Made Surfaces: What are the Secrets of their Ecological Success?, Karsten, U., Schumann, R., and Mostaert, A. Book chapter in Algae and Cyanobacteria in Extreme Environments, Cellular Origin, Life in Extreme Habitats and Astrobiology Springer, 583-597, (2007).

 

 

2006

Phase modulation atomic force microscope with true atomic resolution , Fukuma, T., Kilpatrick, J. I., and Jarvis, S. P., Review of Scientific Instruments, 77, 123703, (2006). [PDF]

Coupling of conservative and dissipative forces in frequency modulation atomic force microscopy, Sader, J. E., and Jarvis, S. P., Physical Review B, 74, 195424, (2006). [PDF]

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

AFM in Liquid - A High Sensitivity Study on Biological Membranes, Higgins, M. J., Fukuma, T., and Jarvis, S. P., GIT Imaging & Microscopy, 8, 47-49, (2006).

Explanation for the Mechanical Strength of Amyloid Fibrils, Fukuma, T., Mostaert, A. S., and Jarvis, S. P., Tribology Letters, 22, 233-237, (2006).

Structured Water Layers Adjacent to Biological Membranes, Higgins, M. J., Polcik, M., Fukuma, T., Sader, J. E., Nakayama, Y., and Jarvis, S. P., Biophysical Journal, 91, 2532-2542, (2006).

Development of Liquid-Environment Frequency Modulation Atomic Force Microscope with Low Noise Deflection Sensor for Cantilevers of Various Dimensions , Fukuma, T., and Jarvis, S. P., Review of Scientific Instruments, 77, 043701, (2006). [PDF]

Noninvasive Determination of Optical Lever Sensitivity in Atomic Force Microscopy, Higgins, M. J., Proksch, R., Sader, J. E., Polcik, M., McEndoo, S., Cleveland, J. P., and Jarvis, S. P., Review of Scientific Instruments, 77, 013701, (2006). [PDF]

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

 

2005

Conservative and Dissipative Force Imaging of Switchable Rotaxanes with Frequency Modulation Atomic Force Microscopy, Farrell, A. A., Fukuma, T., Uchihashi, T., Kay, E. R., Bottari, G., Leigh, D. A., Yamada, H., and Jarvis, S. P., Physical Review B, 72, 125430, (2005). [PDF]

Quantitative measurement of solvation shells using frequency modulated atomic force microscopy, T. Uchihashi, T., Higgins, M. J., Nakayama, Y., Sader, J. E., and Jarvis, S. P., Nanotechnology, 16, S49-S53, (2005).

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

Frequency modulation atomic force microscopy: a dynamic measurement technique for biological systems,  Higgins, M. J., Riener, C. K., Uchihashi, T., Sader, J. E., McKendry, R., and Jarvis, S. P., Nanotechnology, 16, S85-S89, (2005).

 

 

2004

Quantitative force measurements in liquid using frequency modulation atomic force microscopy, Uchihashi, T., Higgins, M. J., Yasuda, S., Jarvis, S. P., Akita, S., Nakayama, Y., and Sader, J. E., Applied Physics Letters, 85, 3575-3577, (2004). [PDF]

Interpretation of frequency modulation atomic force microscopy using fractional calculus, Sader, J. E., and Jarvis, S. P., Physical Review B, 70, 012303, (2004). [PDF]

Accurate Formulas for Interaction Force and Energy in Frequency Modulation Force Spectroscopy, Sader, J. E., and Jarvis, S. P., Applied Physics Letters, 84, 1801-1803, (2004). [PDF]

 

 

2003

Application of carbon nanotubes to topographical resolution enhancement of tapered fiber SNOM probes, Huntington, S. T., and Jarvis, S. P., Review of Scientific Instruments, 74, 2933-2935, (2003). [PDF]