Abstract: Methods and systems for the use of Surface Enhanced Raman Scattering nanotags (SERS nanotags) to create homogeneous (no-wash), heterogeneous or sequence detection assay platforms. In certain embodiments the SERS nanotags are used in combination with magnetic particles. Multiplexed assay platforms are also disclosed. In certain embodiments, the assay is useful for clinical proteomics. Assay platforms suitable for use within a biological matrix, for example within whole blood or serum are also disclosed. The assay formats described herein may be used to detect any analyte of interest including but not limited to the detection of cells, viruses, bacteria, proteins, DNA, RNA, or small molecules in any type of biological (animal or plant kingdom) or environmental samples including but not limited to whole blood or serum, occult samples, urine, feces, air, drinking water, phage, any organism, multicellular clumps of cells, for example, cancer tissue homogenate.

Abstract: Submicron-sized particles or labels that can be covalently or non-covalently affixed to entities of interest for the purpose of quantification, location, identification, tracking, and diagnosis, are described.

Abstract: A lateral flow immunoassay featuring encapsulated metal particles. The encapsulated particles may use SERS nanotags as the detection modality. The use of encapsulated particles as a detection modality, in particular encapsulated SERS tags increases the sensitivity of an LFI prepared for visual reading and introduces the ability to obtain substantially more sensitive qualitative results or quantitative results through the analysis of a SERS spectrum read from an LFI prepared in accordance with the present invention. The use of SERS as detection modality also enhances the ability of an LFI device to be used for a multiplexed test. Other aspects of the present invention include LFI devices specifically configured to test whole blood, a reader for the detection and interpretation of a multiplexed assay and the hardware and software components used to implement the reader.

Abstract: Metal nanoparticles associated with a spectroscopy-active (e.g., Raman-active) analyte and surrounded by an encapsulant are useful as sensitive optical tags detectable by surface-enhanced spectroscopy (e.g., surface-enhanced Raman spectroscopy).

Abstract: Metal nanoparticles associated with a spectroscopy-active (e.g., Raman-active) analyte and surrounded by an encapsulant are useful as sensitive optical tags detectable by surface-enhanced spectroscopy (e.g., surface-enhanced Raman spectroscopy).

Abstract: A catalytic nanotemplate including a freestanding template particle and a director associated with the surface of the freestanding template particle. The free standing template particle may have multiple segments and the director may be associated with one or more of the segments. In instances where multiple segments are present, the segments may be made of different materials or be of the same material in different forms. More than one type of director or no director may be associated with any particular segment.

Abstract: A system to selectively deliver relatively small analyte molecules of interest to a SERS-active nanoparticle surface while excluding dozens to hundreds of other species in the environment. In particular, the present invention provides a permselective film that renders the particles of interest as viable small molecule optically addressable sensors.

Abstract: An encapsulated surface enhanced Raman scattering (SERS) tag. The tag includes a metal core and an encapsulant, typically a glass encapsulant. The encapsulant is further derivatized with a polymer.

Abstract: Methods for applying security tags and/or data to currency and other documents and systems for use are provided.

Abstract: Freestanding particles comprising a plurality of segments, wherein the particle length is from 20 nm to 50 ?m and the particle width is form 5 nm to 50 ?m.