Abstract: A chromatographic optical detection system includes an optical detector disposed to receive light scattered from a stream of particles and configured to convert the received light to an electrical signal; a signal-processing unit in signal communication with the optical detector to receive the electrical signal, and configured to convert the electrical signal to digital pulses and count the digital pulses to output a first signal corresponding to a number of particles detected in a time interval, and configured to integrate and digitize the electrical signal to output a second signal corresponding to the number of particles detected in the time interval; and a data station in signal communication with the signal-processing unit, and configured to select the first signal, if the number of particles detected in the time interval is less than a threshold criterion, and to select the second signal if the number of particles detected in the time interval exceeds the threshold criterion.

Abstract: The invention provides improved apparatus for, and methods of, ionizing analyte molecules in a flow of gas, typically at or around atmospheric pressure. The invention may be used to facilitate mass spectrometric analysis of analytes comprised in the effluent form a gas chromatograph. Ionization may be effected by atmospheric pressure chemical ionization or by atmospheric pressure photo ionization.

Abstract: Described is a capillary column cartridge. The cartridge can be used to perform separations according to various techniques such as capillary gas chromatography, capillary electrophoresis and capillary liquid chromatography. The cartridge includes a capillary column secured in a cartridge body. The capillary column includes an inlet port and an outlet port that, in some embodiments, are disposed on a planar surface of the body. When the body is engaged to a separation system module, the inlet port is aligned to receive a sample to be separated and the outlet port is aligned to provide the separated sample to the separation system module. The path of the capillary through the body has a non-planar path shape such as a coil shape. Consequently, longer column lengths can be accommodated, leading to an improvement in separation resolution. The body can include a material having a high thermal conductivity to achieve improved thermal performance.

Abstract: An apparatus includes a vibration element defining a fluidic passageway; an excitation element for exciting vibration of the vibration element; a detector for providing a signal representative of the frequency excited; and control electronics configured to determine a density of a fluid flowing through the fluidic passageway based, at least in part, on the signal provided by the detector. The vibration element is configured such that Coriolis force induced twisting of the vibration element is substantially inhibited.

Abstract: A chromatographic optical detection system includes an optical detector disposed to receive light scattered from a stream of particles and configured to convert the received light to an electrical signal; a signal-processing unit in signal communication with the optical detector to receive the electrical signal, and configured to convert the electrical signal to digital pulses and count the digital pulses to output a first signal corresponding to a number of particles detected in a time interval, and configured to integrate and digitize the electrical signal to output a second signal corresponding to the number of particles detected in the time interval; and a data station in signal communication with the signal-processing unit, and configured to select the first signal, if the number of particles detected in the time interval is less than a threshold criterion, and to select the second signal if the number of particles detected in the time interval exceeds the threshold criterion.

Abstract: Described is a capillary that interfaces with an analysis system. The capillary comprises a non-conductive tubing and a conductive region proximate to an output end of the non-conductive tubing. The conductive region comprises a plurality of porous regions and non-porous regions positioned about a circumference of the non-conductive tubing. The porous regions separated from each other by the non-porous regions. Advantageously, the arrangement of porous regions provides mechanical stability about the conductive region.

Abstract: A chemical processing apparatus includes a fragmentation device that includes a linear set of stacked electrodes and a voltage control module that forms DC potential wells of opposite polarity for mutual confinement of opposite polarity ions. A method of protein analysis includes confining positive peptide ions and negatively charged reagent anions in, respectively, first and second DC potential wells in a fragmentation device, mixing the ions, in the fragmentation device, and analyzing ion fragments formed in the mixture.

Abstract: Described is an apparatus for photoionization of an analyte in an eluent of a chromatography column. The apparatus includes a laser to generate a beam of optical radiation, a mass spectrometer and one or more optical components to receive the beam and to generate a concentrated region of optical radiation near an orifice of the mass spectrometer so that an analyte in the vapor phase of the eluent is ionized. Alternatively, the apparatus includes a laser driven light source, a mass spectrometer and an optical imaging system. The laser driven light source includes an optical enclosure having an ionizable medium, an ignition source and a laser for pumping optical radiation into the ionizable medium. The optical imaging system generates an image of the pumped region of the ionized medium proximate to the orifice of the mass spectrometer to thereby photoionize an analyte in the vapor phase of the eluent.

Abstract: Embodiments of the present invention are directed to devices and methods for performing an analysis of a sample having a sample surface. The device and method feature a frame element affixed to a sample holder, jet element and a charged particle analyzer having an ion receiving orifice. The jet element directs a jet of gas towards the sample surface held by said sample holder focused on less than 2.0 mm2 of the sample surface. Ions formed by the electrode means are received by a charged particle analyzer having a ion receiving orifice for receiving one or more sample ions and performing a charged particle analysis with respect to the sample surface. The sample holder moves with respect to the jet element, and charged particle analyzer to permit scanning of a sample surface.

Abstract: Embodiments of the present invention feature devices and methods for performing gas chromatography and liquid chromatography with mass spectrometry. The device and method feature a removable housing which housing contains the gas samples when the mass spectrometry receives gas samples. The device fits an atmospheric pressure ionization housing and upon removal, the atmospheric pressure ionization housing receives liquid samples.

Abstract: Embodiments of the invention relate to a device for analyzing a sample surface Comprising an outlet and a frame. The outlet is for forming a jet of gas, the jet forming a sampling region for receiving one or more sample surfaces, and the frame holding the outlet and being adapted to receive a detector means. The detector means has an inlet. In use, the jet produces desorbed sample from sample surfaces received in the sample area. At least a portion of the desorbed sample is ionized to produce one or more sample ions. The frame holds the outlet with respect to the sample ions and produce a signal indicative of the composition of the sample ions.

Abstract: Described is a capillary that interfaces with an analysis system. The capillary comprises a non-conductive tubing and a conductive region proximate to an output end of the non-conductive tubing. The conductive region comprises a plurality of porous regions and non-porous regions positioned about a circumference of the non-conductive tubing. The porous regions separated from each other by the non-porous regions. Advantageously, the arrangement of porous regions provides mechanical stability about the conductive region.

Abstract: Described is a capillary column cartridge. The cartridge can be used to perform separations according to various techniques such as capillary gas chromatography, capillary electrophoresis and capillary liquid chromatography. The cartridge includes a capillary column secured in a cartridge body. The capillary column includes an inlet port and an outlet port that, in some embodiments, are disposed on a planar surface of the body. When the body is engaged to a separation system module, the inlet port is aligned to receive a sample to be separated and the outlet port is aligned to provide the separated sample to the separation system module. The path of the capillary through the body has a non-planar path shape such as a coil shape. Consequently, longer column lengths can be accommodated, leading to an improvement in separation resolution. The body can include a material having a high thermal conductivity to achieve improved thermal performance.

Abstract: Described is a detector for receiving the eluent from a liquid- or supercritical-fluid chromatograph in which a signal indicative of the presence of an analyte in the eluent is generated by the scattering of light by desolvated particles of the analyte. The detector includes a nebulizer for generating an aerosol from the eluent in a chamber that has a wall in thermal communication with a heat sink. Changes in the temperature of the wall during an analysis of the eluent are reduced by the transfer of heat to the first heat sink.

Abstract: Embodiments of the present invention feature devices and methods for performing gas chromatography and liquid chromatography with mass spectrometry. The device and method feature a removable housing which housing contains the gas samples when the mass spectrometry receives gas samples. The device fits an atmospheric pressure ionization housing and upon removal, the atmospheric pressure ionization housing receives liquid samples.

Abstract: Embodiments of the present invention are directed to resonating detection devices in which the sample flows through a conduit having a section in which the conduit is grouped or concentrated with the point of maximum movement.

Abstract: A chemical processing apparatus includes a fragmentation device that includes a linear set of stacked electrodes and a voltage control module that forms DC potential wells of opposite polarity for mutual confinement of opposite polarity ions. A method of protein analysis includes confining positive peptide ions and negatively charged reagent anions in, respectively, first and second DC potential wells in a fragmentation device, mixing the ions, in the fragmentation device, and analyzing ion fragments formed in the mixture.

Abstract: The invention provides improved apparatus for, and methods of, ionizing analyte molecules in a flow of gas, typically at or around atmospheric pressure. The invention may be used to facilitate mass spectrometric analysis of analytes comprised in the effluent form a gas chromatograph. Ionization may be effected by atmospheric pressure chemical ionization or by atmospheric pressure photo ionization.

Abstract: The invention comprises apparatus for use with atmospheric pressure ionization sources in which an aerosol is formed from a solution of a sample. The aerosol is received in a hollow member and discharged outside the chamber of the ionization source in order to reduce contamination of the ionization source itself by involatile material in the solution and by previously analysed samples. The hollow member is easily removable from the ionization source to facilitate cleaning and replacement. Ionization sources, mass spectrometers, and ion mobility spectrometers comprising the apparatus are also described.

Abstract: Described is a detector for receiving the eluent from a liquid- or supercritical-fluid chromatograph in which a signal indicative of the presence of an analyte in the eluent is generated by the scattering of light by desolvated particles of the analyte. The detector includes a nebulizer for generating an aerosol from the eluent in a chamber that has a wall in thermal communication with a heat sink. Changes in the temperature of the wall during an analysis of the eluent are reduced by the transfer of heat to the first heat sink.