Environmental Solutions
 Rtx®-CLPesticides / Rtx®-CLPesticides 2 GC Columns
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 Ultra Carbamate Columnsparticle size: 3µm or 5µm, spherical pore size: 100Å pH range: 2.5 to 8 temperature limit: 80°C Restek chemists developed the Ultra Carbamate column specifically for carbamates analysis. The unique packing separates 10 target carbamates in just over 10 minutes. The column is compatible with fluorescence or LC/MS detection.* An Ultra Carbamate column can process as many as 3 to 4 samples per hour, versus less than 2 samples per hour on a general-purpose C18 column. In addition to increased sample throughput, this much faster analysis will significantly reduce solvent usage—and the costs of disposing of solvent waste. |
 Sample Prep Cartridges for Extraction & Clean-Up
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 Air Canisters for VOC Monitoring
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 8270 MixesEPA 8270 internal, surrogate, & spike mixes. |
 EZ Twist Top™ Injection PortTake a guided tour of the new EZ Twist Top™ Injection port, to learn how it simplifies maintenance, eliminates tangled gas lines, and makes changing liners a snap. Narrated by Innovations Chemist Scott Grossman. |
 The Restek Leak DetectorFind out about the innovations in the newest revision of Restek's Electronic Leak Detector, narrated by one of the engineers involved in its creation. Narrated by Instrument Innovations Engineer Brandon Tarr. |
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 Large Volume Splitless Injection Using an Unmodified Split/Splitless Inlet and GC-TOFMS for Pesticides and Brominated Flame RetardantsConcurrent solvent recondensation large volume splitless injection (CSR-LVSI) GC/MS is used here for analyzing pesticides and brominated flame retardants in drinking water based on EPA Method 527. CSR-LVSI allows a time-consuming sample extract concentration step to be eliminated, but can also be used with extract concentration for lower detection limits. |
Analyze Haloacetic Acids in Under 13 Minutes with Rtx®-CLPesticides ColumnsSample throughput for haloacetic acids in drinking water can be increased significantly using Rtx®-CLPesticides/Rtx®-CLPesticides2 columns. Target HAAs were fully resolved in under 13 minutes. |
New Wool Ensures More Accurate Semivolatiles AnalysesNew Semivolatiles Wool, pre-packed in Restek liners, is designed specifically for semivolatiles analysis and result in more accurate results at lower levels, compared to similar products. |
3-Fold Faster Polybrominated Diphenyl Ether (PBDE) Short Column MethodSample throughput for PBDE analysis can be significantly increased using a 15m Rtx®-1614 column. Excellent responses and peak shapes are obtained for all congeners, including BDE-209, in just 20 minutes. |
 Gas Sampling Bags: Cost-Effective Alternatives for Air MonitoringGas sampling bags can be a cost-effective alternative to canisters and thermal desorption tubes for many air monitoring applications, including VOCs and permanent gases. This 4-page flyer provides general guidelines, product specifications, and recommended applications. (PDF - 953kB) |
 Analyze More Semivolatiles Samples Per Shift Using Split InjectionSemivolatiles are typically analyzed using splitless injection, but this approach results in slow analysis times and significant variability. In contrast, using split injection under the conditions established here allows faster sample throughput and increased repeatability. (PDF - 1556kB) |
 Restek Airmail, 2011 vol. 1This 4-page newsletter includes an analysis of naphthalene along with TO-15 volatiles, as well as an innovative customer application for verifying sample port integrity during soil vapor intrusion monitoring. Also features air canisters and new air sampling products. (PDF - 337kB) |
 Restek Airmail, 2012 vol. 1This 4-page newsletter includes an analysis of Massachusetts DEP air-phase petroleum hydrocarbons, as well as an update on the U.S. EPA Photochemical Assessment Monitoring Stations (PAMS) program. Also features Tedlar® bags and air canisters. (PDF - 774kB) |
 Rxi®-624Sil MS Columns—Exceptionally Inert, Low Bleed Columns for Volatiles AnalysisAnalyze volatile compounds and polar analytes with greater confidence using Rxi®-624Sil MS columns. Optimized selectivity, higher inertness, and lower bleed result in reliable separations and accurate, trace-level determinations. Includes environmental and pharmaceutical applications. (PDF - 3111kB) |
 Increase Productivity for Dioxin and Furan Analysis with Rtx®-Dioxin2 GC ColumnsRtx®-Dioxin2 columns have higher temperature stability (340 °C) than other confirmation columns and also provide isomer specificity for both 2,3,7,8-TCDD and 2,3,7,8-TCDF in a single column. These attributes allowed the Maxxam Analytics HR-MS group to make productivity improvements that resulted their being honored with a Kaizen award. (PDF - 691kB) |
 Improve Recoveries of Chlorinated Pesticides with CarboPrep® SPE CleanupConserve solvent, ensure cleaner extracts, and obtain high recovery of target pesticides by using graphitized carbon-based CarboPrep® SPE tubes to prepare samples for chlorinated pesticides analysis. (PDF - 676kB) |
 Thermal Desorption Tubes: Versatile Air Sampling for a Wide Range of ApplicationsThis flyer give an overview of TD sampling and describes many applications that can be sampled using this versatile technique. Includes a comparison of tube and canister sampling, to help you determine which VOC sampling technique is best for you. (PDF - 177kB) |
 Reduce Acetonitrile Dependence by Analyzing Polycyclic Aromatic Hydrocarbons with Methanol-Based Mobile PhaseSwitching to a methanol-based mobile phase for polycyclic aromatic hydrocarbon analysis—using the method shown here—is an effective way to save money by reducing acetonitrile consumption. (PDF - 119kB) |
 Accurately Quantify PAHs Down to 5 pg On-ColumnPolycyclic aromatic hydrocarbons (PAHs) are common environmental pollutants, affecting air, water, and soil quality. Although naturally occurring, human impact has created a steady increase in environmental levels of PAHs and their byproducts. PAHs are typically formed through the incomplete combustion of organic materials, such as wood, coal, and oil, but are also used in manufacturing of some medicines, plastics, and pesticides. Many PAHs are known or suspected carcinogens. The United States Environmental Protection Agency currently lists and mandates testing of the 16 PAHs they deem most hazardous. (PDF - 226kB) |
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