Skip to main content

Solid Phase Microextraction (SPME) for Solvent-Free Sample Preparation

Solid phase microextraction (SPME) enables solvent-free sample preparation. There are two types of SPME extractions: headspace analysis and direct immersion (DI). Agilent SPME Arrows and fibers can either be used in headspace analysis or by direct immersion in liquid analytes. Agilent supplies SPME Arrows and fibers in packs of three, and related accessories, including fiber holders and inlet guides. SPME Arrows and fibers are available in a range of coatings for a variety of applications. Smart SPME Arrows and fibers for compatibility with the PAL3 Series II are also available.

Solid Phase Microextraction (SPME) for Solvent-Free Sample Preparation

All Categories

Featured Tools

Captiva Syringe Filter Selector Tool

The Captiva Syringe Filter selector tool helps you find the best syringe filter to suit your sample prep needs.

Solid Phase Extraction (SPE) Selector Tool

The SPE Selector Tool helps find the best SPE based on your application, SPE format, sample volume and bed mass.

QuEChERS Selector Tool

QuEChERS eSelector provides extraction and dispersive kit recommendations for pesticides in fruit and vegetables.

Featured Customer Testimonials

Raúl Vigas

CEO, J·Vigas

The SPME Arrow – Intuvo GC – MS/MS system incorporates maximum precision coupled with a speed that is not achieved with any other technology. According to the studies of J·Vigas, there is no other equipment on the current market for the analysis of TCA in wine stoppers that gives such reliable results in 5 minutes.

View More
Return to top
Featured Videos
Return to top
Featured News

Agilent's Bond Elut PFAS WAX Named 2023 Top Product by Environment+Energy Leader

Agilent won a 2023 Environment+Energy Leader Award for Bond Elut PFAS WAX SPE Cartridges that improve efficiency in testing for PFAS substances, the so-called ‘forever chemicals.’ Bond Elut PFAS WAX enables scientists to confidently isolate PFAS from drinking water, wastewater, soil, sludge, tissues, and food. “The presence of PFAS chemicals in our daily lives is a grave concern,” the judges wrote, “making any technology that aids in their removal from the environment truly lifesaving.”

Full Workflow for US EPA Method 1633 for Targeted PFAS Analysis

Agilent announced a highly-anticipated, complete workflow solution for targeted per- and polyfluoroalkyl substances (PFAS) analysis using the United States (US) Environmental Protection Agency (EPA) Method 1633 (3rd draft). EPA Draft Method 1633 currently analyzes 40 PFAS compounds in wastewater and soil and is a complex and labor-intensive method, relying on multiple sample preparation and analysis steps. Success in running the technique depends on careful sample handling and the appropriate sample preparation supplies and instrumentation.

Five Key Practices for Pesticide Analysis in Challenging Food Matrices

Concerns about trace level pollutants in food are driving demand for more rapid and reliable ways to identify and quantify chemical residues. One measure of food safety is the maximum residue limit (MRL), which is the highest level pf pesticide residue allowed to remain in or on the treated food commodity. This article highlights five ways to ensure successful pesticide analysis.

Featured Training & Events

The PFAS Lab of the Future

This webinar looks at the future of a PFAS lab - optimized workflows, maximum efficiency, artificial intelligence, and increased throughput.
Webinar/Training

Analysis of PFAS: Strategies to optimize performance

This expert discussion forum addresses some of the key issues surrounding the targeted analysis of PFAS in environmental matrices.
Webinar/Training

0 product selected.

Clear All