Methods and systems for delivering liquid sample to an ion source and subsequent analysis by mass spectrometry. In accordance with various aspects of the present teachings, MS-based systems and methods are provided in which desorption solvent is used in sampling interface to desorb analyte species from an SPME device that is coupled to an ion source to ionize analyte species desorbed into the desorption solvent for MS analysis (e.g., without a liquid chromatography (LC) column between the sampling interface and the ion source). In various aspects of the methods and systems described herein, configuring 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.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed comprising: (a) using a first device to generate smoke, aerosol or vapour from a target plant material; (b) mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and (c) analysing said spectrometric data in order to identify and/or characterise said plant material.

Method and devices are provided for assessing tissue samples from a plurality of tissue sites in a subject using molecular analysis. In certain aspects, devices of the embodiments allow for the collection of liquid tissue samples and delivery of the samples for mass spectrometry analysis.

An apparatus for performing ambient ionisation mass and/or ion mobility spectrometry is disclosed. The apparatus comprises a substantially cylindrical, tubular, rod-shaped, coil-shaped, helical or spiral-shaped collision assembly; and a first device arranged and adapted to direct analyte, smoke, fumes, liquid, gas, surgical smoke, aerosol or vapour onto said collision assembly.

Embodiments of apparatus and method for testing metal contamination are disclosed. In an example, an apparatus for testing metal contamination includes a chamber in which a test object is placed, a gas supply configured to supply nitrogen gas into the chamber, a pressure controller configured to apply a pressure of at least about 1 torr in the chamber, and a measurement unit configured to measure a concentration of a metal from the test object.

A system for carrying out gas chromatography/mass spectroscopy (GC/MS) on gasses trapped in glass solidified from molten glass includes a glass sample vacuum chamber having a gas inlet, a gas outlet, and an introduction port for receiving the glass sample; a crushing tool for crushing the glass sample; a gas sample vacuum chamber disposed in downstream fluid communication with the glass sample vacuum chamber; a supply of carrier gas in fluid communication with the glass sample vacuum chamber; a GC/MS analyzer in downstream fluid communication with the gas sample vacuum chamber; an injector in fluid communication between the GC/MS analyzer and the gas sample vacuum chamber and for injecting the gas sample into the GC/MS analyzer; a gather valve in fluid communication between the glass and gas sample vacuum chambers; and a booster in fluid communication with the gas sample vacuum chamber.

A method is disclosed comprising obtaining physical or other non-mass spectrometric data from one or more regions of a target using a probe. The physical or other non-mass spectrometric data may be used to determine one or more regions of interest of the target. An ambient ionisation ion source may then used to generate an aerosol, smoke or vapour from one or more regions of the target.

Integrated system for delivering sample to a mass spectrometer, which includes a chamber extending from a top to bottom end, an open port probe disposed in the chamber such that an open end of the probe, which is configured for receiving a sample, is positioned in proximity to top end of the chamber. The system can further include a solvent inlet port coupled to said chamber for receiving a solvent and directing said solvent to said probe, and a solvent outlet port for receiving a flow of the solvent from the open port probe and directing the received solvent out of the chamber. The system can also include an adapter for receiving a sample holder having an outlet port, the adapter is releasable and replaceable and couple with chamber to align the outlet port of sample holder with open end of probe for delivering sample to the probe.

A method of analysis is disclosed comprising providing a sample on an insulating substrate such as a petri dish (4) and contacting e.g. the rear surface of the insulating substrate with a first electrode (9). The method further comprises contacting the sample with a second electrode (2) and applying an AC or RF voltage to the first and second electrodes (9,2) in order to generate an aerosol from the sample.

A method is disclosed comprising obtaining or acquiring chemical or other non-mass spectrometric data from one or more regions of a target using a chemical sensor. The chemical or other non-mass spectrometric data may be used to determine one or more regions of interest of the target. An ambient ionisation ion source may then be used to generate aerosol, smoke or vapour from one or more regions of the target.