Research Topics
| P E SheehanSummaryAffiliation: Naval Medical Center Country: USA Publications
| Collaborators
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Detail Information
Publications
Reduced graphene oxide molecular sensorsJeremy T Robinson
Naval Research Laboratory, Washington, DC 20375, USA
Nano Lett 8:3137-40. 2008..The sensors are capable of detecting 10 s exposures to simulants of the three main classes of chemical-warfare agents and an explosive at parts-per-billion concentrations...- A simple pen-spotting method for arraying biomolecules on solid substratesP E Sheehan
Naval Research Laboratory, Washington, DC 20375 5342, USA
Biosens Bioelectron 18:1455-9. 2003..The pens are particularly convenient because pre-mixed solutions can be stored in the pens for multiple uses. We demonstrate the use of this approach to deposit DNA probes on a microsensor array... - Detection limits for nanoscale biosensorsPaul E Sheehan
Chemistry Division, Naval Research Laboratory, Washington, D C 20375, USA
Nano Lett 5:803-7. 2005..We conclude that without directed transport of biomolecules, individual nanoscale sensors will be limited to picomolar-order sensitivity for practical time scales... - The assembly of single-layer graphene oxide and graphene using molecular templatesZhongqing Wei
Naval Research Laboratory, Code 6177, Washington, DC 20375, USA
Nano Lett 8:3141-5. 2008..In contrast to CNT immobilization, we find that the GO sheets do not adhere to the bare Au surface... - The utility of Shewanella japonica for microbial fuel cellsJustin C Biffinger
Chemistry Division, US Naval Research Laboratory, 4555 Overlook Avenue, SW, Washington, DC 20375, USA
Bioresour Technol 102:290-7. 2011..Critically, air-exposed S. japonica utilizes biosynthesized extracellular mediators for electron transfer to carbon electrodes with sucrose as the sole carbon source... - Conductance anisotropy in epitaxial graphene sheets generated by substrate interactionsMichael K Yakes
U S Naval Research Laboratory, Washington, D C 20375, USA
Nano Lett 10:1559-62. 2010..This highlights the importance of considering substrate effects in proposed devices that utilize nanoscale patterning of graphene on electrically isolated substrates... - Maskless nanoscale writing of nanoparticle-polymer composites and nanoparticle assemblies using thermal nanoprobesWoo Kyung Lee
Code 6177, Chemistry Division, U S Naval Research Laboratory, Washington, D C 20375, USA
Nano Lett 10:129-33. 2010..Many types of nanoparticles can be patterned with the same technique, without the need to tailor the substrate chemistry and without solution processing... - Attomolar protein detection in complex sample matrices with semi-homogeneous fluidic force discrimination assaysS P Mulvaney
Naval Research Laboratory, Washington, DC 20375, USA
Biosens Bioelectron 24:1109-15. 2009.... - Thiol diffusion and the role of humidity in "Dip Pen Nanolithography"P E Sheehan
Naval Research Laboratory, Washington, DC 20375, USA
Phys Rev Lett 88:156104. 2002..Facile transfer is observed even after near continuous deposition for more than 24 h in a dry N2 environment, indicating that a water meniscus is not required... - A biosensor based on magnetoresistance technologyD R Baselt
Naval Research Laboratory, Washington DC 20375 5342, USA
Biosens Bioelectron 13:731-9. 1998..The multi-analyte capability of this portable sensor would be ideal for on-site testing, while the potential to directly gauge intermolecular interaction strengths suggests drug discovery applications... - Quantifying the magnetic advantage in magnetotaxisM J Smith
Chemistry Division, Naval Research Laboratory, Washington, District of Columbia 20375, USA
Biophys J 91:1098-107. 2006....