Part No: AN863Issued year: 2016File size: 1.62mbFile type: pdf
This application note describes the use of ISOLUTE® ENV+ on-line cartridges in a fully automated on-line SPE-LC-MS/MS method for extraction and quantification of 16 acid herbicides in drinking and surface water.
Part No: AN103-HOR.V.1Issued year: 2020File size: 1.48mbFile type: pdf
Pesticides, including insecticides, herbicides and fungicides are used extensively to increase agricultural yields. The total world usage of pesticides in 2007 was approximately 5.2 billion pounds with the US consuming approximately 22% of the total.1 The wide use of pesticides yields concern that drinking water sources will become contaminated, exposing the population to hazardous substances that may cause cancer.
Part No: SSI-LCMS-096Issued year: 2018File size: 0.87mbFile type: pdf
Analysis of the perfluorinated alkyl acids listed in EPA Method 537 along with fluorotelomeric alcohols and perfluorinated sulfonates were extracted using SPE (using ISOLUTE 101 500 mg/ 6 mL SDVB SPE columns) and analyzed on the LCMS 8045. Minimum Detection Limits(MDL) ranged from 0.69 to 3.25 ppt. Extraction recoveries were greater than 80% for all compounds, with surrogate recoveries within 10% of the true value.
Part No: AN080-HORIssued year: 2015File size: 1.18mbFile type: pdf
This application note demonstrates the use of automated solid phase extraction for a variety of pharmaceutical compounds in drinking water,
wastewater and surface water. The criteria specified in US EPA Method 1694 was met, even at very low concentrations. For lower concentrations a larger sample of water may be processed.
Part No: PPS512Issued year: 2019File size: 1.04mbFile type: pdf
Atlantic® ReadyDisks are solid phase extraction (SPE)
disks, pre-assembled into disposable holders and are
used for extracting organic and semivolatile organic
compounds from aqueous matrices. The ReadyDisks
are designed for single-use extractions with maximum
speed and convenience in mind and eliminate the
need to clean holders between extractions.
Part No: AN122-HORIssued year: 2017File size: 1.87mbFile type: pdf
This application note demonstrates the performance of automated disk-based solid phase extraction (SPE), using Biotage® Horizon 5000 automated extraction system and Atlantic® DVB SPE disks, for concentration of organochlorine pesticides from whole water, prior to GC/MS analysis, following the requirements of EN16693:2015.
Part No: AN120-HORIssued year: 2017File size: 1.44mbFile type: pdf
Polycyclic aromatic hydrocarbons (PAHs) can be found in a number of water types, such as drinking water, surface water, ground water and wastewater. There are serval types of extraction techniques that can be implemented to remove them from water for measurement including liquid-liquid extraction (LLE), continuous liquid-liquid extraction (CLLE) and solid phase extraction (SPE). With LLE and CLLE there is little selectivity within the methods for difficult matrices or other compound interferences.
Part No: AN002-HOR.V.1Issued year: 2020File size: 1.13mbFile type: pdf
This study shows that the Biotage® 4790 Automated Extractor system, along with the Atlantic™ DVB disk, the DryDisk® separation membrane, and the DryVap® Concentrator System can be successfully used to analyze for Nonyl Phenol and Bisphenyl A in water samples. This sample preparation process is fully automated, requiring minimal human intervention, and allowing for reductions in sample processing costs.
Part No: AN008-HORIssued year: 2009File size: 0.89mbFile type: pdf
EPA Method 525.2 describes the procedure to determine
low ppb levels of semi-volatile organic material in drinking
water using solid phase extraction (SPE) or liquid-solid
extraction (LSE) techniques. The extraction solvents are
methylene chloride and ethyl acetate. Extracts are analyzed
by GC/MS using a splitless injection technique.
Part No: AN927Issued year: 2019File size: 1.18mbFile type: pdf
This application note demonstrates the performance of the
Biotage® Horizon 5000 automated solid phase extraction system
for extraction of 1,4-dioxane from drinking water, in compliance with US EPA Method 522.
Part No: AN053-HOR.V.1Issued year: 2020File size: 1.76mbFile type: pdf
Carbaryl, a commonly used insecticide for the past 20 years, has become a significant environmental concern throughout the world. Also known through its trademarked name Sevin, it is a cholinesterase inhibitor and can be toxic to humans, causing problems in the blood, nervous, and reproductive systems.
Part No: AN001-HOR.V.1Issued year: 2020File size: 1.85mbFile type: pdf
Hormones in drinking water are a growing concern, since the presence of these compounds can potentially be linked to serious health hazards such as human developmental and reproductive side-effects. Hormones are introduced into our environment in several ways. Natural and synthetic hormones that are given to livestock, pass though the animals, runoff into surface water, and leach into underground water supplies. Humans also produce and excrete natural hormone waste every day.
Part No: AN009-HOR.V.1Issued year: 2015File size: 0.58mbFile type: pdf
Method 525.2 describes the procedure to determine a full suite of low concentration semi-volatile organic compounds in drinking water using solid phase extraction (SPE) or liquid–solid extraction (LSE) techniques. The City of Fort Worth, Water Department implemented an automated SPE process for the analysis of semi-volatiles by EPA Method 525.2 using the Atlantic® C18 solid phase extraction disk. Ethyl acetate, methanol and water were used to condition the Atlantic C18 disk prior to the extraction step. The extraction solvents used were a 1:1 mixture of methylene chloride and ethyl acetate. Extracts were then analyzed by GC/MS using a splitless injection technique.
Part No: AN108-HORIssued year: 2016File size: 2.35mbFile type: pdf
Drinking water is a critical resource important for human health. As water becomes more scarce, quality will become increasingly important and monitoring will be required more frequently and at lower concentration levels. The number of compounds and lower concentrations for monitoring will make extraction and analysis even more challenging.
Part No: AN011-HORIssued year: 2010File size: 0.93mbFile type: pdf
The second unregulated contaminant monitoring regulation (UCMR2) program was developed to monitor US drinking water sources for currently unregulated compounds. EPA Method 527 is categorized under List 1; Assessment Monitoring in the UCMR2 program. It focuses on a wide range of semi volatile organic contaminants including pesticides that were deferred during the first UCMR, flame retardants, and pyrethroid pesticides. This application for EPA Method 527 employs SPE with analysis by gas chromatography / mass spectrometry (GC/MS).
Part No: AN104-HORIssued year: 2016File size: 1.48mbFile type: pdf
Drinking water is an important resource that can provide significant exposure to humans if it is polluted. Analysis of source water, which may come from surface water, groundwater or treated water must be evaluated for possible contaminants to ensure regulatory compliance.1 Drinking water at the tap is often evaluated for contaminants that may be introduced through leaks in the pipes or pipe materials.
Part No: AN101-HORIssued year: 2016File size: 1.07mbFile type: pdf
This application note highlights a SPE disk which was specifically designed to increase the recoveries of traditionally difficult polar compounds as well as help to increase the diversity of the traditional 525.2 list to include those compounds which are of concern in today’s society.
Part No: AN006-HORIssued year: 2009File size: 0.8mbFile type: pdf
Method 508.1 is used to determine twenty-nine chlorinated
pesticides, three herbicides, and four organohalides in
ground water, drinking water, and water in any treatment
stage. The analytes are extracted from the water using a 47
mm C18 disk. The disk is extracted on the Horizon
Technology SPE-DEX® 4790 Automated Extraction
System using Ethyl Acetate and Methylene Chloride
(DCM). The extract is then dried and concentrated using
the Horizon Technology DryVap® with DryDisk®
technology. Final analysis is by GC/ECD.
Part No: AN010-HOR.V.1Issued year: 2020File size: 1.51mbFile type: pdf
Method 526 is a gas chromatography / mass spectrometry(GC/MS) method for the determination of selected semivolatile compounds in raw and finished drinking waters.This method efficiently extracts analytes using the SPEDEX® 4790 with an Atlantic® 47 mm polystyrene divinylbenzene (DVB) disk. The disk is extracted with using Ethyl Acetate (EtAc) and Methylene Chloride (DCM). The extract is then dried and concentrated using the DryVap® concentrator system coupled with DryDisk® technology to a final volume of 1.0 mL. Final analysis is done by GC/MS.