Part No: IST1069AIssued year: 2012File size: 0.11mbFile type: pdf
This application note demonstrates an effective and efficient suported liquid extraction protocol for the clean up and concentration of a range of forensically significant opiates and their metabolites
ISOLUTE, unknown screening,
Part No: AN705Issued year: 2010File size: 0.1mbFile type: pdf
Molecularly imprinted polymers (MIPs) are a class of highly cross-linked polymers- engineered to bind one target compound or a class of structurally related target compounds with high selectivity. Selectivity is introduced during MIP synthesis in which a template molecule, designed to mimic the analyte, guides the formation of specific cavities or imprints that are sterically and chemically complementary to the target analyte(s). It is therefore critical for analysts to use the methodology described below when using this phase. Conventional generic methodologies employed with conventional SPE chemistries (e.g., reversed-phase C18) will yield sub-optimal results when employed with this phase.
molecularly imprinted polymers, MIP, BIOTAGE, AFFINILUTE, NSAIDs, Environmental, SupelMIP
Part No: AN706Issued year: 2011File size: 0.1mbFile type: pdf
The following methods have been developed for the selective extraction of beta-agonists from biological matrices. Methods have been developed for both biological tissues (e.g. bovine muscle) and fluids (e.g. urine). The methods are highly reproducible and offer β-agonist recoveries in the range of 35-90%.
MIP, Molecularly Imprinted Polymers, BIOTAGE, AFFINILUTE, SupelMIP,
Part No: AN747Issued year: 2011File size: 0.18mbFile type: pdf
Biotage® PRESSURE+ manifolds deliver positive pressure, parallel processing for 96 well plates and column formats. The systems utilize a consistent, uniform flow of positive pressure to move both low and high viscosity liquids through SPE plates and columns. ISOLUTE SLE+ Supported Liquid Extraction plates and columns offer an efficient alternative to traditional liquid-liquid extraction (LLE) for bioanalytical sample preparation, providing high analyte recoveries, no emulsion formation and greatly matrix effects associated with biofluid analysis.
SLE+, SLE, Supported Liquid Extraction, positive pressure manifold, Pressure+96, Pressure+48