Explore a variety of instruments and consumables that can be used with the TRACE 1600 Series Gas Chromatograph to enhance your GC analyses and optimize your GC system for your laboratory's workflows.
Whether you need a simple liquid or headspace GC autosampler or one that can do it all (liquid, headspace, solid phase microextraction (SPME) injections, and automated sample preparation), our autosamplers are designed for peak performance of liquid, solid, and gas sample handling and injection into GC and GC-MS systems, ensuring precision and reliability.
Save time and reduce errors by automating your sample handling tasks with our portfolio of gas chromatography autosamplers:
AI/AS 1610 Liquid Autosampler – Enhanced usability and sample handling capabilities enable injection automation with consistency and ensure the quality of your GC data.
TriPlus 100 LS Liquid Autosampler – Automate liquid injections completely and reliably with this X-Y-Z robotic autosampler. Offers high injection volume flexibility and fully customizable injection parameters.
TriPlus RSH SMART Autosampler – Track SMART consumables usage and boost lab productivity with advanced sample handling and sample preparation workflows, automated liquid injection, static and dynamic headspace sampling, and Solid Phase Microextraction (SPME/SPME Arrow) sampling techniques.
TriPlus 500 GC Headspace Autosampler – Ensure sample integrity and the highest data quality precision thanks to the direct column connection design. Based on valve-and-loop technology, it provides full compliance with regulatory statutes for organic volatile analysis in water and solid samples.
For greater analytical versatility, the Thermo Scientific TRACE 1600 Series Gas Chromatograph is compatible with the most advanced Markes International thermal desorption (TD) and Teledyne Tekmar purge and trap (P&T) solutions.
When coupled with a Thermo Scientific mass spectrometer (MS), the TRACE 1600 Series Gas Chromatograph augments the power of MS with extended uptime, cost savings, and ease of use.
Our gas chromatography-mass spectrometry (GC-MS) system offer sensitive and reproducible results for the most challenging applications, enabling you to extract more information from every sample while ensuring the accuracy of your analytical results. Combined with productivity enhancing software, our advanced GC-MS instruments enable you to meet or exceed the most stringent requirements for performance, reliability, and value.
Pair one of these Thermo Scientific GC-MS instruments with your TRACE 1600 Series System for optimal performance in your GC-MS workflows:
Achieve productivity and compliance with a single software platform. The Thermo Scientific Chromeleon Chromatography Data System (CDS) streamlines chromatography and mass spectrometry workflows for the best software experience.
This software delivers superior compliance tools, networking capabilities, instrument control, automation, data processing, and more. The first CDS to unify workflows for chromatography and routine quantitative mass spectrometry (MS) analysis, Chromeleon software provides full integration of Thermo Scientific gas chromatography (GC-MS/MS) instruments. As a WAN-optimized, full enterprise solution, it can scale globally and provides a strong, reliable return on investment.
Achieve reliable, reproducible results for your gas chromatography and gas chromatography-mass spectrometry applications with columns that represent a leap forward in performance, delivering high temperature stability, low bleed, and superior inertness for long column lifetimes.
Optimize your applications with GC columns & accessories
Browse our online Chromatography Consumables Catalog, which features a robust applications search tool, access to method development guides, application notebooks, and much more.
Our high-quality parts and accessories are designed to ensure optimal performance of your Thermo Scientific gas chromatography systems and related modules. Products included in our parts and accessories portfolio for GC systems include:
Improve separation and detectability of compounds prior to GC or GC-MS analysis using our broad selection of derivatization reagents, including the following:
Silylation Reagents – The most widely used derivatives for GC applications.
Acylation Reagents – Convert active hydrogen-containing compounds through the action of a carboxylic acid or carboxylic acid derivative.
Alkylation Reagents – Substitution of an active hydrogen by an aliphatic or aliphatic-aromatic (benzyl) group for modifying compounds containing acidic hydrogens.
Siliconizing Fluids – Coat various lab consumables with an inert, water-repellent film.