Part No: PPS445Issued year: 2017File size: 0.62mbFile type: pdf
Ease of use is what stands out as the top feature of Isolera™ flash chromatography
system for Professor Anna Bernardi, head of the synthetic organic chemistry
research group at the University of Milan. Her current research goal: developing
sugar-like molecules, called glycomimetics, for healthier life.
Part No: PPS443Issued year: 2017File size: 2.31mbFile type: pdf
Analysis of drug panels in urine samples can be challenging, and the trend towards larger panels including multiple drug classes compounds the issues faced during method development.
This white paper examines a number of aspects of sample preparation, and their impact on the success of subsequent LC-MS/MS analysis of broad urine panels.
Section 1 examines the applicability of various sample preparation techniques: supported liquid extraction, reverse phase SPE and mixed-mode SPE, to the various classes of drugs extracted. In addition, hydrolysis approaches: enzyme type and protocol used (time, temperature), are compared.
Mixed-mode reverse phase/cation exchange SPE is widely used for extraction of basic drug classes from urine, but the inclusion of drugs and metabolites that exhibit ‘non-typical’ functionality within urine panels can be problematic. Section 2 examines the impact of various parameters (interference wash strength, elution solvent composition) on analyte retention, elution and extract cleanliness with particular focus on zwitterionic (gabapentin, pregabalin) and non-ionic (carisoprodol, meprobamate) drugs.
Part No: Issued year: 2011File size: 0.07mbFile type: pdf
Through innovative patented technology based on molecularly imprinted polymers (MIPs)
you will experience improved clean up in your processes. With a high probability of success,
unwanted contaminants or high value desirables can be selectively extracted from your
processes, resulting in more efficient production and cleaner products.
Part No: P102Issued year: 2014File size: 0.6mbFile type: pdf
Designed polymers are a class of selective resins with engineered selectivities for particular target molecules or ‘classes’ of molecules. These designed polymers are obtained by careful tuning of their surface chemistry and morphology which allows them to exhibit unique separation capabilities. The tailored and optimized selectivity of designed polymers is utilized to conduct difficult separations that are not able to be accomplished with conventional separation resins or other techniques.
Part No: AN954Issued year: 2010File size: 0.09mbFile type: pdf
This paper demonstrates how the introduction of simple automated technology and a modification in analysis. Can
positively impact analytical results and overall throughput for critical environmental testing.
Part No: AN012-HORIssued year: 2010File size: 0.99mbFile type: pdf
The second Unregulated Contaminant Monitoring Regulation (UCMR2) program was developed to monitor US drinking water sources for currently unregulated compounds. EPA Method 529 is categorized under List 1, Assessment Monitoring in the UCMR2 program, and focuses on three explosives: 1,3-dinitrobenzene; 2,4,6- trinitrotoluene (TNT); and hexahydro-1,3,5-trinitro-1,3,5- triazine (RDX). The resulting data will be used by the EPA to determine whether or not regulatory standards should be established for these compounds.
Part No: AN009-HORIssued year: 2015File size: 1.33mbFile 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: AN019-HORIssued year: 2010File size: 0.92mbFile type: pdf
The City of Fort Worth, Water Department conducted an evaluation of the Atlantic™ solid phase extraction (SPE) C18 disks using EPA Method 608. This application note describes the procedure to determine low ppb levels of organochlorine pesticides and PCBs in wastewater. This procedure used methylene chloride as the primary extraction solvent, followed by a hexane solvent exchange. Extracts were then analyzed by GC/ECD using a pressure pulse injection technique.
Part No: AN021-HORIssued year: 2009File size: 0.89mbFile type: pdf
Method 1657 describes the procedure to determine low ppb levels of organophosphorus pesticides in municipal and industrial wastewater.
The City of Fort Worth Water Department implemented Automated SPE for the analysis of organophosphorous pesticides by EPA Method 1657, using the Atlantic™ C18 solid phase extraction disk.
The Biotage® Horizon 4790 Automated Extraction System with Envision®
Platform controller, and the DryVap® Automated Drying
and Concentration System were used in this application note.
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).