Abstract: A device for making particulate analyte molecules comprising a nebulizer producing a plume of liquid droplets, a vessel having a chamber to receive the plume in which the chamber has a nebulization section, a desolvation section. The nebulization section is cooled to form a condensed waste from a portion of said plume. The desolvation section is heated to form solvent gas molecules and particulate analyte molecules.

Abstract: Described are techniques for use in connection with analyzing a droplet. One or more droplets of a sample are formed on a surface of a digital microfluidic device. The droplets are manipulated to perform processing using said one or more droplets generating one or more resulting droplets. The one or more resulting droplets may be transferred from the microfluidic device to another device for analysis. The one or more droplets may also be provided to the digital microfluidic device from yet another device or analysis instrument.

Abstract: Embodiments of the present invention are directed to evaporation light scattering detectors having an evaporative chamber having a wall that is in good thermal contact with a heat sink. The heat has a high thermal mass such that a change in temperature of the wall during an analysis is minimized.

Abstract: Embodiments of the present invention are directed to devices and methods for receiving NSC Fluids having at least one analyte from a chromatograph and directing analyte ions into the vacuum regions of a mass spectrometer. The device has a housing having at least one wall defining a chamber, sample inlet, an ionization media inlet and an outlet. The sample inlet has a position in communication with a chromatograph receiving a NSC Fluid. The sample inlet receives the NSC Fluid and directs the NSC Fluid into the chamber to form a sample jet of NSC Fluid. The ionization media inlet is placed in fluid communication with a source of ionization media and directs the ionization media into the chamber and the sample jet to create analyte ions. The analyte ions are received in the mass spectrometer vacuum region orifice.

Abstract: An apparatus for performing chemical analyses includes a mass spectrometry module and an interface module that processes sample materials for delivery to the mass spectrometry module. The interface module includes a vessel having an opening to access a vessel chamber, a door to block the opening, a sealing member disposed between the door and the vessel, and an interlock. The interlock is actuated by the sealing member if the door is in the closed position and the sealing member is properly disposed between the door and the vessel to seal the vessel. The sealing member alternatively includes an indicator portion that is visible to an operator if the door is in the closed position and the sealing member is properly disposed.

Abstract: Embodiments of the present invention feature devices and methods for performing mass analysis. One embodiment of the device comprises an inlet housing for mounting on the first wall between the area of low pressure and the area of high pressure. The inlet housing has passages and restrictions which can be adjusted with respect to a sample plume or changed by substituting alternative inlet housings.

Abstract: Apparatus for the detection of analytes in a fluid, for example the eluant from a liquid chromatography is described. Solvent is evaporated from the eluant to produce a stream of particles when analyte is present in the fluid. The resultant stream of particles is passed through one or more beams of radiation, typically visible light, and radiation scattered by the particles is detected at least at a first angle to a beam of radiation and at a second, different, angle to a radiation beam to produce a signal indicative of the presence of the analyte. Chromatographic apparatus incorporating the detector and methods of operating the detector and chromatographic apparatus are also described.

Abstract: Embodiments of the invention relate to a device for analysing 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: 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: An apparatus for performing chemical analyses includes a mass spectrometry module and an interface module that processes sample materials for delivery to the mass spectrometry module. The interface module includes a vessel having an opening to access a vessel chamber, a door to block the opening, a sealing member disposed between the door and the vessel, and an interlock. The interlock is actuated by the sealing member if the door is in the closed position and the sealing member is properly disposed between the door and the vessel to seal the vessel. The sealing member alternatively includes an indicator portion that is visible to an operator if the door is in the closed position and the sealing member is properly disposed.

Abstract: Embodiments of the present invention feature heat exchange surfaces having a layer or coating having a lower surface tension than water, to repel water and prevent the formation of condensate on said surface.

Abstract: Apparatus for the detection of analytes in a fluid, for example the eluant from a liquid chromatography is described. Solvent is evaporated from the eluant to produce a stream of particles when analyte is present in the fluid. The resultant stream of particles is passed through one or more beams of radiation, typically visible light, and radiation scattered by the particles is detected at least at a first angle to a beam of radiation and at a second, different, angle to a radiation beam to produce a signal indicative of the presence of the analyte. Chromatographic apparatus incorporating the detector and methods of operating the detector and chromatographic apparatus are also described.

Abstract: Embodiments of the present invention are directed to evaporation light scattering detectors having an evaporative chamber having a wall that is in good thermal contact with a heat sink. The heat has a high thermal mass such that a change in temperature of the wall during an analysis is minimized.

Abstract: Embodiments of the present invention are directed to devices and methods for receiving NSC Fluids having at least one analyte from a chromatograph and directing analyte ions into the vacuum regions of a mass spectrometer. The device has a housing having at least one wall defining a chamber, sample inlet, an ionization media inlet and an outlet. The sample inlet has a position in communication with a chromatograph receiving a NSC Fluid. The sample inlet receives the NSC Fluid and directs the NSC Fluid into the chamber to form a sample jet of NSC Fluid. The ionization media inlet is placed in fluid communication with a source of ionization media and directs the ionization media into the chamber and the sample jet to create analyte ions. The analyte ions are received in the mass spectrometer vacuum region orifice.

Abstract: A thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, comprising a matrix material in a supported dispersion wherein the support is a solid or is formed from a solid. The invention is also directed to a method of making a thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, the layer comprising a matrix-solid composition disposed upon a substrate, comprising the step of depositing a solution containing matrix, solid and solvent upon a spinning substrate at a deposition rate sufficient to allow evaporation of the solvent, thereby interspersing the matrix and support on the substrate in a thin layer. Enhanced mass resolution is described.

Abstract: A compact high-performance mass spectrometer includes an ion source, an ion filter, a collision cell, a fragment filter, and an ion detector, along with one or more ion deflectors and one or more gas removal rings. An ion deflector allows a straight ion filter and a straight collision cell to be coupled in a folded configuration to make a compact design without the loss of performance associated with the use of curved quadrupole components. A gas removal ring, located proximate to an ion path aperture of the collision cell, allows an ion path aperture to be large for high sensitivity while minimizing performance degradation associated with the tendency of collision cell gas to escape via the collision cell ion path apertures to enter the high vacuum region and the detector.

Abstract: A thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, comprising a matrix material in a supported dispersion wherein the support is a solid or is formed from a solid. The invention is also directed to a method of making a thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, the layer comprising a matrix-solid composition disposed upon a substrate, comprising the step of depositing a solution containing matrix, solid and solvent upon a spinning substrate at a deposition rate sufficient to allow evaporation of the solvent, thereby interspersing the matrix and support on the substrate in a thin layer. Enhanced mass resolution is described.

Abstract: An improved method and apparatus for performing Mass spectrometry, in particular, Liquid chromatography/Mass spectrometry (LC/MS) is disclosed. Controlled generation of individual charged droplets enables the subsequent steps of trapping, desolvation and concentration. Miniaturization is also enabled. In contrast, conventional means of forming Electrosprays are chaotic, generating large numbers of charged droplets simultaneously. Additional flows of gas are provided in a nebulization region to effectively remove undesired solvent vapor and concentrate desirable analyte containing droplets and/or analyte ions. A semipermeable structure is used to effectively separate associated gas flow streams. Ions are concentrated or trapped using electrodes which are bound in the nebulization region and are appropriately electrically biased so as to concentrate the ions on one side, or in the center, or in a ring of the laminar gas stream. Additionally, a valve may be used to interrupt the flow gas into a detector region.

Abstract: A thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, comprising a matrix material in a supported dispersion wherein the support is a solid or is formed from a solid. The invention is also directed to a method of making a thin layer for sample analysis by matrix-assisted laser desorption mass spectrometry, the layer comprising a matrix-solid composition disposed upon a substrate, comprising the step of depositing a solution containing matrix, solid and solvent upon a spinning substrate at a deposition rate sufficient to allow evaporation of the solvent, thereby interspersing the matrix and support on the substrate in a thin layer. Enhanced mass resolution is described.

Abstract: An improved electrospray (ES) apparatus has a low pressure ES chamber coupled to a desolvation chamber. The desolvation chamber desolvates the incoming analyte ions of the cone-jet with non-conductive energy. The apparatus stabilizes cone-jet formation in the ES chamber. The apparatus receives solvated ions without pressure reduction, produces desolvated ions with non-conductive energy in a low pressure region, and outputs the desolvated ions towards a mass spectrometer as a substantially solvent-free ion beam suitable for mass spectrometer analysis. The apparatus avoids the degree of pressure reduction featured in prior ES techniques.