Abstract: The present disclosure describes a novel system and method for providing a fast, inexpensive and reliable diagnostic test for indicating the presence of a biological threat. This test utilizes surface-enhanced Raman spectroscopy to interrogate a sample comprising metallic plasmonic particles suspected of contamination with the biological threat. The Raman spectrum is analyzed for specific Raman shifts that are characteristic of an interaction of the biological threat with the metallic plasmonic particles to produce a diagnostic result.

Abstract: Materials, compositions, and methods of inhibiting biofilm formation and treating formed biofilm employing medically acceptable materials and silver nanoparticles coupled thereto are disclosed. Pathogenic fungi, bacteria, viruses, and combinations thereof are implicated in healthcare-associated infections with both significant medical consequences and high mortality rates. Substantially pure silver nanoparticles are coupled directly to polymer or textile medical dressings to treat fungal, bacterial, viral and combination infections.

Abstract: Certain embodiments are directed to systems and methods using surface enhanced Raman scattering (SERS) detection. More specifically, the present invention describes a system and method of use for SERS detection of sialic (N-acetylneuraminic acid) using citrate-reduced silver nanoparticles.

Abstract: In some embodiments, an anti-corrosive composite ceramic coating includes an inner metal layer formed on the surface of a metal object to be protected and an outer composite ceramic layer formed on the inner metal layer.

Abstract: In some embodiments, a system for measuring magnetic fields produced within a microscope comprising an electromagnetic lens includes a sensor support element configured to be mounted to a distal end of an elongated support member that is configured to be inserted into the microscope, and a magnetic field sensor supported by the sensor support element, the magnetic field sensor being configured to sense magnetic fields at a position within the electron microscope at which specimens are imaged during operation of the microscope.

Abstract: A variety of nanostructures are provided having a metal nanowire having a plurality of faces extending along a length of the nanowire, and a plurality of semiconductor nanorods forming two or more nanorod arrays, wherein each of the nanorod arrays is attached to a different surface of the nanowire. For example, in some embodiments, the nanostructure is a silver nanowire having a pentagonal cross section and five faces extending along the length of the nanowire, and metal oxide nanorods forming five nanorod arrays extending along each of the five faces of the silver nanowire. The nanostructures can demonstrate high temperature coefficients of resistance, and can be used in a variety of bolometric materials. In some embodiments, bolometric materials are provided including a plurality of the nanostructures deposited onto a surface of a substrate. Methods of making the nanostructures and bolometers are also provided.

Abstract: Certain embodiments are directed to systems and methods using surface enhanced Raman scattering (SERS) detection. More specifically, the present invention describes a system and method of use for SERS detection of sialic (N-acetylneuraminic acid) using citrate-reduced silver nanoparticles.

Abstract: In some embodiments, an anti-corrosive composite ceramic coating includes an inner metal layer formed on the surface of a metal object to be protected and an outer composite ceramic layer formed on the inner metal layer.

Abstract: In some embodiments, a system for measuring magnetic fields produced within a microscope comprising an electromagnetic lens includes a sensor support element configured to be mounted to a distal end of an elongated support member that is configured to be inserted into the microscope, and a magnetic field sensor supported by the sensor support element, the magnetic field sensor being configured to sense magnetic fields at a position within the electron microscope at which specimens are imaged during operation of the microscope.

Abstract: A variety of nanostructures are provided having a metal nanowire having a plurality of faces extending along a length of the nanowire, and a plurality of semiconductor nanorods forming two or more nanorod arrays, wherein each of the nanorod arrays is attached to a different surface of the nanowire. For example, in some embodiments, the nanostructure is a silver nanowire having a pentagonal cross section and five faces extending along the length of the nanowire, and metal oxide nanorods forming five nanorod arrays extending along each of the five faces of the silver nanowire. The nanostructures can demonstrate high temperature coefficients of resistance, and can be used in a variety of bolometric materials. In some embodiments, bolometric materials are provided including a plurality of the nanostructures deposited onto a surface of a substrate. Methods of making the nanostructures and bolometers are also provided.

Abstract: This invention generally relates to use of novel nanomaterials comprised of metals in anti-viral applications. Such nanomaterials, for example, can be produced using a high power, pulsed plasma process, which plasma process, optionally, can be performed on the metal with a precursor (i.e., a gaseous precursor, such as acetylene or methane) when forming the unagglomerated nanomaterials. In embodiments of the invention, the metal is nanosilver. Optionally, the nanomaterials may also comprise carbon, including in the form of carbyne.

Abstract: The present invention relates to the use of plants for the production of metal nanoparticles. In particular, precious metals such as gold, silver and platinum can be produced using plants such as alfalfa.