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Products shown here are related to the application of thermal desorption for consumer and industrial. Or find out more about consumer and industrial product applications

Microchamber sampling

Microchambers are compact, stand-alone test chamber units that allow rapid sampling of vapour-phase organic compounds from a product or material, complementing small-scale chamber testing by third-party laboratories. Microchamber sampling is a type of dynamic headspace sampling and a powerful tool for increasing laboratory productivity. The technique is usually used in combination with sorbent tubes and off-line thermal desorption–GC–MS.

Applications for

microchamber sampling include:

  • Quality-control of chemical emissions from products and materials, such as construction materials
  • Screening of products prior to long-term certification tests e.g. consumer products
  • Checking raw materials.
  • Comparing products to those of competitors.
  • Monitoring odour and emission profiles e.g. car trim.
  • Kinetic studies such as shelf-life tests or monitoring aroma or fragrance profiles as they change over time for the food and consumer industries.

Online air or gas sampling

‘Whole air’ sampling refers to collection of samples in the field using canisters or bags, or their direct introduction to the focusing trap of the thermal desorption instrument without the use of sorbent tubes (online sampling). The compounds remain in the gas phase throughout.

Air sampling bags are commonly used to collect whole air samples for landfill gas and soil

gas. A sample can be collected in the container using either pumped or passive sampling, and subsequently sealed and transported to the laboratory for analysis.

Where the compounds of interest are too volatile to be retained by sorbent tubes at ambient temperature (such as hydrogen sulfide), either on-line or canister analysis is required (as opposed to tube sampling).

On-line air monitoring is the method of choice for real-time monitoring of changes in vapour concentrations and for continuous remote monitoring.

Applications include:

  • Ozone precursor monitoring
  • Odours in urban air
  • Fenceline monitoring of petrochemical plants and other industrial installations
  • Odour from sewage treatment works

Sorptive extraction

Featured product: HiSorb Starter kit

  • A flexible alternative to methods such as stir-bar sorptive extraction (SBSE)
  • Detection limits are lower than for SPME
  • Easier and quicker to use than solvent extraction
  • Re-usable probes and tubes minimise cost per sample
  • Robust and easy to use with multiple phases available
  • Exclusive to Markes International
  • Automated by the Centri sample extraction and enrichment

    platform

SPME

Solid-phase microextraction (SPME) uses a small fiber coated with absorptive phase(s), to extract volatiles in either headspace or immersive modes. SPME extraction is an equilibrium process dependent on the partitioning of analytes between the sample matrix (either liquid, solid or headspace) and the absorptive phase. Analytes that become absorbed into the SPME phase are subsequently desorbed using a heated injector, before transfer to the GC column.

The simple, solvent-free nature

of SPME has led to its increased popularity across a range of application areas, particularly in food and beverage analysis, clinical studies and environmental analysis. Compared with static headspace, SPME can offer improved selectivity and concentration capability, resulting from the sampling capacity of the sorptive phase. A variety of sampling phases are available to extend the applicability of SPME over a range of target analytes.

Supplies for standard methods

Markes’ application specialists are active on committees working on standard methods, and also in the development of products to support method compliance. A variety of standard methods are available for monitoring specific VOCs often in prescribed sample types. For example, an automobile industry standard method might focus on materials such as plastic, leather or foam.

Organisations developing standard methods can

be grouped into government agencies such as US EPA and UK HSE, international standards agencies such as ISO and CEN, and consensus-based standards organisations such as ASTM. When selecting an appropriate method to adopt, the following issues should be considered:

  • Any specific regulatory requirements/guidance.
  • Method scope e.g. ambient, indoor, workplace, material emissions test chambers.
  • Sampling and analytical requirements.
  • General guidance (e.g. choice of sorbents, selection of GC column).
  • Validation protocol.
  • Method limits – list of target analytes (if applicable), concentration range, detection limits, analyte volatility range, etc.

See our Standard Methods page listing all relevant methods.

Standards & calibration

Calibration of the complete analytical process is of paramount importance when conducting quantitative studies. For TD analysis, additional considerations should be made regarding the loading of standards to be representative of samples, with a variety of tools available to support this.

In addition to gas standards for both canister and tube-based methods, a number of products have been developed to

support laboratories with their calibration and validation:

  • The Calibration Solution Loading Rig (CSLR) was developed to optimise the introduction of liquid standards onto sorbent tubes, by transferring the standard in a flow of gas.
  • Check-standards are sorbent tubes pre-loaded with a suite of analytes that can be used to check instrument performance during set-up or troubleshooting.
  • CRS tubes are loaded with a certified level of analytes and are designed to validate calibration for QA, as described in international standards. They are supplied with a shipping blank, and example chromatograms of the sample and shipping blank.
  • Tubes for liquid calibration contain a short bed of sorbent for analysts wishing to inject a liquid standard directly onto the sorbent tube, rather than loading the tube using a flow of gas (e.g. with the CSLR).

Headspace sampling

Headspace (HS) has been widely used for quantitative evaluation of VOCs in solid and liquid samples for many years. Samples are placed into vials, sealed and incubated. Once equilibrium is reached VOCs partition into the headspace at levels that are proportional to their concentration in the original liquid or solid sample. A precise aliquot of headspace vapour is then transferred/injected directly into the GC (traditional methods) or via an electrically-cooled focusing trap for enhanced performance.

Headspace sampling can be enhanced

in combination with a preconcentration focusing trap step. Headspace–trap results in enhanced sensitivity by allowing larger injection volumes to be used, as well as multiple extractions from a single sample to be ‘concentrated’ in one GC–MS run. It also offers improved peak shape, optional sample splitting, and re-collection for repeat analysis without the need to repeat extraction steps.

Common application areas of headspace sampling include environmental monitoring, and analysis of foods, beverages and fragranced products.

Sorptive extraction

Featured product: HiSorb Starter kit

  • A flexible alternative to methods such as stir-bar sorptive extraction (SBSE)
  • Detection limits are lower than for SPME
  • Easier and quicker to use than solvent extraction
  • Re-usable probes and tubes minimise cost per sample
  • Robust and easy to use with multiple phases available
  • Exclusive to Markes International
  • Automated by the Centri sample extraction and enrichment

    platform

Starter kits

Markes’ starter kits are designed to provide the essentials needed to get a thermal desorption system up and running quickly, by providing a single package with items such as tubes, traps, tools and other accessories.

Markes offers a selection of starter kits for a range of standard methods such as US EPA Method TO-17 and US EPA 325, as well

as application-specific starter kits such as the Material emissions starter kit and the Direct desorption starter kit.

Laboratory managers and technicians using the UNITY–ULTRA-xr or TD100-xr systems may also find the popular essential automated TD starter kit and the automated TD booster pack useful.

Other starter kits have been designed to help customers get up and running with tube tracking technology (TubeTAG) or adopting a new approach to sampling, such as HiSorb sorptive extraction.