A method is disclosed comprising providing a biological sample on a swab, directing a spray of charged droplets onto a surface of the swab in order to generate a plurality of analyte ions, and analysing the analyte ions.

A nozzle for directing heated gas onto the distal end of a capillary arrangable adjacent the nozzle, the nozzle comprising: a housing defining a plenum for heated gas; and at outlet comprising at least one aperture fluidly connected to the plenum, the outlet configured to direct a curtain of the heated gas onto the distal end of a capillary in use, such that the curtain of heated gas is substantially aligned with the longitudinal axis of the capillary.

In a general aspect, chemical compounds (e.g., drugs, agrochemicals, and explosives) are detected. In some examples, a chemical detection system includes a container, an ionization system, a mass spectrometer, one or more computer systems, a sampling probe, and a control system. The sampling probe is configured to receive a liquid solvent from the container; to hold a fixed volume of the liquid solvent in direct contact with a sample surface for a period of time to form an analyte in the sampling probe; and to deliver the analyte to the ionization system. The ionization system is configured to ionize the analyte. The mass spectrometer is configured to produce mass spectrometry data by processing the ionized analyte provided by the ionization system. The one or more computer systems are configured to analyze the mass spectrometry data to detect a chemical compound present on the sample surface.

A method is disclosed comprising providing a biological sample on a swab, directing a spray of charged droplets onto a surface of the swab in order to generate a plurality of analyte ions, and analysing the analyte ions.

Methods and systems for delivering a liquid sample to an ion source for the generation of ions and subsequent analysis by mass spectrometry are provided herein. In accordance with various aspects of the present teachings, MS-based systems and methods are provided in which a desorption solvent utilized in a sampling interface to desorb one or more analyte species from an SPME device is fluidly coupled to an ion source for ionizing the one or more analyte species desorbed into the desorption solvent for subsequent mass spectrometric analysis (e.g., without a liquid chromatography (LC) column between the sampling interface and the ion source). In accordance with various aspects of the methods and systems described herein, the configuration the sampling interface can be optimized so as to reduce the fluid volume dead space about the fluid inlet so as to concentrate the one or more analyte species desorbed at optimized conditions from the SPME substrate in a decreased volume of the desorption solvent when the SPME device is inserted into sampling interface.

An ion transfer tube assembly, a mass spectrometry system, and a method for providing an ion stream to an ion detection device are described that include using an ion transfer tube that provides a coaxial sheath gas flow. In an implementation, an ion transfer tube assembly includes an ion transfer tube for delivering the ion stream, where a sheath gas flows through the ion transfer tube, and where the ion transfer tube receives the ion stream from a first conduit coupled to an ion source; a pump fluidly coupled to the ion transfer tube, where the pump causes the sheath gas to flow through the ion transfer tube, where the ion stream is separated from the ion transfer tube walls by the coaxial sheath gas flow, and where the ion stream is received by a second conduit coupled to the ion detection device.

An apparatus for connecting an ionisation probe assembly to a mass and/or ion mobility spectrometer is disclosed. The apparatus comprises: an attachment member for releasably attaching a probe assembly to the apparatus; a cap for enclosing the attachment member; wherein the apparatus is operable to deliver a voltage to a probe assembly only when the cap is arranged to enclose the attachment member; and wherein the cap is configurable to enclose the attachment member when a probe assembly is attached to the apparatus.

An ion transfer system includes an ion source coupled to an ion inlet; an ion transfer tube assembly including a concentric ion transfer tube with a porous material that is permeable to a gas, the concentric ion transfer tube coupled to the ion inlet and the ion source, where a first gas that includes an ion stream flows through the concentric ion transfer tube; and a concentric gas tube, the concentric ion transfer tube disposed within the concentric gas tube, where a second gas flows between the concentric ion transfer tube and the concentric gas tube; an ion detection device coupled to a capillary tube that is coupled to the concentric ion transfer tube, where the capillary tube transports the ion stream to the ion detection device; and a pump coupled to at least one of the concentric ion transfer tube or the concentric gas tube.

A method and system for formation and withdrawal of a sample from a surface to be analyzed utilizes a collection instrument having a port through which a liquid solution is conducted onto the surface to be analyzed. The port is positioned adjacent the surface to be analyzed, and the liquid solution is conducted onto the surface through the port so that the liquid solution conducted onto the surface interacts with material comprising the surface. An amount of material is thereafter withdrawn from the surface. Pressure control can be utilized to manipulate the solution balance at the surface to thereby control the withdrawal of the amount of material from the surface. Furthermore, such pressure control can be coordinated with the movement of the surface relative to the port of the collection instrument within the X-Y plane.

Certain embodiments described herein are directed to adapters for use in coupling a direct sample analysis device to an analytical instrument such as, for example, a mass spectrometer. In some examples, the adapter can include an internal coupler separated from an external coupler through an insulator.