Abstract: Methods of measuring a sample characteristic and accessories for infrared (IR) spectrometers are provided. An accessory includes an input port and an output port having an optical path therebetween, a surface plasmon resonance (SPR) structure for contacting a sample, a mirror system, and an optical element for producing collimated light. The SPR structure produces internally reflected light responsive to broadband IR light, modified by a SPR between the SPR structure and the sample. The mirror system directs the broadband IR light from the input port to the SPR structure and directs the internally reflected light from the SPR structure to the output port, producing output light indicative of a characteristic of the sample associated with the SPR. The optical element is disposed along the optical path between the input port and the output port.

Abstract: The invention relates to a method for identifying the source of shed bioparticles and an apparatus that implements the method. The method involves collecting a sample of bioparticles from the environment, selecting from that sample the bioparticles most effective in identifying their source, and gathering data from those bioparticles to form bioparticle signatures. The bioparticle signatures are then processed into a multi-dimensional vector which is then compared to the multi-dimensional vector derived from a standard using a pattern recognition strategy that identifies the source. The apparatus has a particle collection device to collect the sample, a transfer device that selects information-rich bioparticles and a detector that restricts the movement of the information-rich bioparticles. The restricted movement is then translated into a bioparticle signature.

Abstract: Methods of measuring a sample characteristic and accessories for infrared (IR) spectrometers are provided. An accessory includes an input port and an output port having an optical path therebetween, a surface plasmon resonance (SPR) structure for contacting a sample, a mirror system, and an optical element for producing collimated light. The SPR structure produces internally reflected light responsive to broadband IR light, modified by a SPR between the SPR structure and the sample. The mirror system directs the broadband IR light from the input port to the SPR structure and directs the internally reflected light from the SPR structure to the output port, producing output light indicative of a characteristic of the sample associated with the SPR. The optical element is disposed along the optical path between the input port and the output port.

Abstract: The invention relates to a method for identifying the source of shed bioparticles and an apparatus that implements the method. The method involves collecting a sample of bioparticles from the environment, selecting from that sample the bioparticles most effective in identifying their source, and gathering data from those bioparticles to form bioparticle signatures. The bioparticle signatures are then processed into a multi-dimensional vector which is then compared to the multi-dimensional vector derived from a standard using a pattern recognition strategy that identifies the source. The apparatus has a particle collection device to collect the sample, a transfer device that selects information-rich bioparticles and a detector that restricts the movement of the information-rich bioparticles. The restricted movement is then translated into a bioparticle signature.

Abstract: Surface active sensors comprising imprinted functional polymer matrices tailor made to detect specific chemical species of interest, and a label free, surface initiated molecular imprinting technology for applications in surface active sensors are provided.

Abstract: A device for connecting optical components of a fiber optic probe and a jumper in a Surface Plasmon Resonator (SPR) has two high-pressure-liquid-chromatography (HPLC) polyetheretherketone (PEEK) connectors, one containing the optical fibers from a probe and the other containing optical fibers which link to a detector and a light source. A method of joining a probe's distal end to a jumper, with at least two fibers or a multimode fiber connected to a light source and to a detection apparatus, has the steps of covering the distal end of the probe with a plastic sleeve, placing the sleeved distal end into a PEEK connector, trimming the distal end of the probe to be even with the edge of the PEEK connection, and connecting the PEEK connector with the jumper.

Abstract: Apparatus and methods featuring a sensor (10) having dual-sensing motifs. The sensor (10) includes an entrant medium (12), a thin metal film layer (14), sensing elements (16), and a fluorescent molecule (18) associated with the sensing elements (16). A target molecule (20) is captured by the sensing elements (16), and Surface Plasmon Resonance (SRP) and fluorescent detection are employed. The apparatus and methods were tested for the detection of Pinacolyl methylphosphanate (PMP), a simulant for nerve agent Soman.

Abstract: A method of coating an SPR biosensor specific for an analyte to reduce protein fouling, the method has the steps of providing an SPR biosensor, providing a solution of 11-mercaptoundecanol; incubating the SPR biosensor in the 11-mercaptoundecanol solution to form a self-assembling monolayer (SAM); incubating the SPR with SAM in a solution of epichlorohydrin and diglyme; next incubating the SPR in ethanolamine; preparing a solution of EDCNHS and a biocompatible polymer; incubating the SPR from ethanolamine in the EDC/NHS/polymer solution; providing a ligand specific for the analyte in a solution; incubating the polymer-coated SPR in the ligand solution to permit the ligand to react with the polymer-coated SPR; washing the ligand-coated SPR to remove unreacted ligand, thereby providing an SPR capable of reacting with the analyte. Another method replaces the solution for the SAM layer with a solution of MHA or NHS-MHA with HT, and attaches the ligand to the resulting SAM layer.

Abstract: A method for measuring low levels of a substance in a sample includes the formation of a rotor from paramagnetic particles in a substantially uniform magnetic field. The rotor is rotated by rotating the substantially uniform magnetic field. A portion of the substance in a sample is bound to the paramagnetic particles, and a signal having a time-varying component is detected. The signal is then processed using a lock-in amplifier with a reference signal having a frequency twice that of the rotation of the magnetic field. This improves the signal-to-noise ratio of the time-varying component of the signal.

Abstract: A method for measuring low levels of a substance in a sample includes the formation of a rotor from paramagnetic particles in a substantially uniform magnetic field. The rotor is rotated by rotating the substantially uniform magnetic field. A portion of the substance in a sample is bound to the paramagnetic particles, and a signal having a time-varying component is detected. The signal is then processed using a lock-in amplifier with a reference signal having a frequency twice that of the rotation of the magnetic field. This improves the signal-to-noise ratio of the time-varying component of the signal.