Solid Phase Extraction Products
Brochures and specifications | 2015 | MerckInstrumentation
Solid phase extraction (SPE) is a cornerstone of modern analytical chemistry, enabling rapid, selective cleanup, concentration and matrix exchange of target analytes from complex samples. By transferring analytes onto tailored stationary phases and removing unwanted interferences, SPE enhances instrument lifetime, sensitivity and reproducibility across environmental, food, pharmaceutical and industrial applications.
This article surveys the evolution and expansion of SPE products from the pioneering Supelclean™ and Visiprep™ systems through today’s advanced phases. It reviews the development of specialty polymeric and molecularly imprinted sorbents, hybrid materials, dispersive SPE formats (QuEChERS) and novel lipid‐removal chemistries. Key SPE platforms, product families and their target applications are compared.
Sample preparation workflows follow five basic SPE steps: pre-treatment (protein precipitation, pH adjustment, extraction), conditioning (wetting of sorbent), sample loading, washing (removal of matrix interferences) and elution (recovery of analytes). Selection of reversed-phase, normal-phase, ion-exchange or mixed-mode sorbents depends on analyte polarity and matrix. Specialized vacuum manifolds, single-tube processors and 96-well plates facilitate throughput. Instrumentation includes LC/MS, GC/MS and fluorescence detectors, often coupled to electrochemical derivatization for improved selectivity.
• HybridSPE-Phospholipid merges protein precipitation with zirconia-coated sorbents, removing >98% of phospholipids and proteins, enabling cleaner LC/MS/MS analysis and also phospholipid profiling.
• Supel-Select polymeric HLB, SAX and SCX phases deliver broad analyte recoveries, low extractables and resistance to overdrying, suitable from small-volume cartridges to 96-well plates.
• Empore™ membrane SPE disks and cartridges offer uniform, high-density packing with reduced elution volumes (<100 µL) and faster flow for environmental and pharmaceutical analytes.
• SupelMIP® molecularly imprinted polymers achieve highly selective retention for challenging targets such as aminoglycoside antibiotics in tissue, reducing background and enabling low-ppb quantitation.
• Discovery® reversed-phase, normal-phase and ion-exchange silica phases supply robust, QC-tested options for pharmaceutical extractions, including mixed-mode SCX/C8 cartridges for enhanced cleanup.
• Supelclean™ and Supelclean ENVI™ lines remain standards for environmental SPE, supporting EPA-compliant methods with high carbon-loading and specialty ENVI-Carb graphitized carbon for pigment removal.
• Supel QuE® dispersive SPE kits streamline QuEChERS sample cleanup, pre-weighing salts and sorbents in 2 mL, 12 mL and 15 mL tubes; new Z-Sep, Z-Sep/C18 and Z-Sep+ sorbents improve lipid and color removal in fatty matrices.
• Supel Sphere Carbon/NH2 cartridges use spherical particles for faster flow and reduced fines, efficiently removing pigments and fatty acids prior to GC/MS pesticide analysis.
• Supel Tox™ SPE cartridges replace immunoaffinity cleanup for mycotoxins, delivering up to tenfold faster sample prep with comparable recoveries and improved reproducibility.
• Supelclean EZ-POP NP dual-layer cartridges combine Florisil and Z-Sep/C18 for extraction of persistent organic pollutants, yielding cleaner olive oil extracts and superior PAH recovery.
Innovation in SPE is moving toward molecularly selective sorbents, integrated microfluidic formats and novel hybrid materials for emerging analytes such as biomarkers, endocrine disruptors and nanomaterials. Advances in dispersive SPE, robotic automation and sustainable sorbents will further increase throughput and reduce solvent consumption, while user-friendly kits tailored to regulatory methods will simplify adoption in QA/QC and field laboratories.
The breadth of modern SPE products—from polymeric and imprinted phases to hybrid phospholipid removers and dispersive formats—provides versatile solutions for complex sample preparation challenges. By carefully matching sorbent chemistry, format and workflow to analyte and matrix, analysts can achieve cleaner extracts, higher sensitivity and improved robustness across diverse analytical applications.
Sample Preparation, Consumables
IndustriesManufacturerMerck
Summary
Importance of Solid Phase Extraction Products
Solid phase extraction (SPE) is a cornerstone of modern analytical chemistry, enabling rapid, selective cleanup, concentration and matrix exchange of target analytes from complex samples. By transferring analytes onto tailored stationary phases and removing unwanted interferences, SPE enhances instrument lifetime, sensitivity and reproducibility across environmental, food, pharmaceutical and industrial applications.
Objectives and Overview
This article surveys the evolution and expansion of SPE products from the pioneering Supelclean™ and Visiprep™ systems through today’s advanced phases. It reviews the development of specialty polymeric and molecularly imprinted sorbents, hybrid materials, dispersive SPE formats (QuEChERS) and novel lipid‐removal chemistries. Key SPE platforms, product families and their target applications are compared.
Methodology and Instrumentation
Sample preparation workflows follow five basic SPE steps: pre-treatment (protein precipitation, pH adjustment, extraction), conditioning (wetting of sorbent), sample loading, washing (removal of matrix interferences) and elution (recovery of analytes). Selection of reversed-phase, normal-phase, ion-exchange or mixed-mode sorbents depends on analyte polarity and matrix. Specialized vacuum manifolds, single-tube processors and 96-well plates facilitate throughput. Instrumentation includes LC/MS, GC/MS and fluorescence detectors, often coupled to electrochemical derivatization for improved selectivity.
Main Results and Discussion
• HybridSPE-Phospholipid merges protein precipitation with zirconia-coated sorbents, removing >98% of phospholipids and proteins, enabling cleaner LC/MS/MS analysis and also phospholipid profiling.
• Supel-Select polymeric HLB, SAX and SCX phases deliver broad analyte recoveries, low extractables and resistance to overdrying, suitable from small-volume cartridges to 96-well plates.
• Empore™ membrane SPE disks and cartridges offer uniform, high-density packing with reduced elution volumes (<100 µL) and faster flow for environmental and pharmaceutical analytes.
• SupelMIP® molecularly imprinted polymers achieve highly selective retention for challenging targets such as aminoglycoside antibiotics in tissue, reducing background and enabling low-ppb quantitation.
• Discovery® reversed-phase, normal-phase and ion-exchange silica phases supply robust, QC-tested options for pharmaceutical extractions, including mixed-mode SCX/C8 cartridges for enhanced cleanup.
• Supelclean™ and Supelclean ENVI™ lines remain standards for environmental SPE, supporting EPA-compliant methods with high carbon-loading and specialty ENVI-Carb graphitized carbon for pigment removal.
• Supel QuE® dispersive SPE kits streamline QuEChERS sample cleanup, pre-weighing salts and sorbents in 2 mL, 12 mL and 15 mL tubes; new Z-Sep, Z-Sep/C18 and Z-Sep+ sorbents improve lipid and color removal in fatty matrices.
• Supel Sphere Carbon/NH2 cartridges use spherical particles for faster flow and reduced fines, efficiently removing pigments and fatty acids prior to GC/MS pesticide analysis.
• Supel Tox™ SPE cartridges replace immunoaffinity cleanup for mycotoxins, delivering up to tenfold faster sample prep with comparable recoveries and improved reproducibility.
• Supelclean EZ-POP NP dual-layer cartridges combine Florisil and Z-Sep/C18 for extraction of persistent organic pollutants, yielding cleaner olive oil extracts and superior PAH recovery.
Practical Benefits and Applications
- Streamlined workflows for environmental pollutants in water, pesticides in food, pharmaceuticals in biological fluids and POPs in oils.
- High throughput options from single tubes to 96-well plates, compatible with automated liquid handlers and vacuum manifolds.
- Customizable sorbent chemistries and bed weights enable method optimization, reducing solvent use and evaporation time.
- Enhanced selectivity and reduced matrix effects improve quantitation, sensitivity and column longevity in LC/MS and GC/MS analyses.
Future Trends and Potential Uses
Innovation in SPE is moving toward molecularly selective sorbents, integrated microfluidic formats and novel hybrid materials for emerging analytes such as biomarkers, endocrine disruptors and nanomaterials. Advances in dispersive SPE, robotic automation and sustainable sorbents will further increase throughput and reduce solvent consumption, while user-friendly kits tailored to regulatory methods will simplify adoption in QA/QC and field laboratories.
Conclusion
The breadth of modern SPE products—from polymeric and imprinted phases to hybrid phospholipid removers and dispersive formats—provides versatile solutions for complex sample preparation challenges. By carefully matching sorbent chemistry, format and workflow to analyte and matrix, analysts can achieve cleaner extracts, higher sensitivity and improved robustness across diverse analytical applications.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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