Empore SPE Particle-Loaded Technology
A high-performance sample preparation technique designed to efficiently isolate, concentrate, and purify analytes from complex matrices for precise analysis
Empore™ SPE membranes integrate sorbent particles within a polymer backbone, creating a high-efficiency extraction system. This advanced structure ensures uniform sorbent distribution, eliminates channeling effects, and accelerates flow rates, making sample preparation faster and more reproducible.
One Technology. Endless Applications.
From lab to industry, SPE technology transforms sample purification with unmatched efficiency, precision, and reproducibility
Environment
Purifies organic pollutants in soil, water, and air samples.
Food
Removes pesticide residues, veterinary drug residues, and additives from food.
Pharmaceuticals
Ideal for purifying pesticide residues in traditional medicine.
Disease Control & Public Health
Eliminates organic pollutants in food and drinking water.
Geology & Mining
Purifies semi-volatile organic pollutants in geological soil.
Forensic & Law Enforcement
Used in forensic investigations and drug enforcement for toxin removal.
SPE Membranes Tailored to Your Needs
With diverse materials, multi-layer structures, and different sizes, our SPE membranes provide the right solution for any purification challenge—whether it’s silica, polymer, or advanced composite technology.
Silica Based
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High Chemical Stability – Resistant to strong acids, bases, and organic solvents.
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Excellent Thermal Resistance – Operates under high temperatures.
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Superior Selectivity – Ideal for chromatography, gas purification, and precise separations.
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Common Types: C4, C8, C18, SAX, WAX, WCX, ZrO₂/C18
Others
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Diverse Material Composition – Includes ceramic, nanofiltration, and composite membranes.
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High Durability – Withstands extreme conditions and specialized filtration needs.
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Used in Industrial & Research Fields – Applications include heavy metal removal, advanced gas separation, and pharmaceutical processing.
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Common Types: Carbon, Graphite Carbon, Glass Fiber, Chelator, Radium, Technetium
Type | Description | Application |
|---|---|---|
C18HD | ||
C18SD | ||
C8HD | ||
C8SD | ||
C4SD | ||
MPC-SD | ||
O&G | ||
Ra | ||
Sr | ||
ZrO₂ | ||
NH₂ | ||
PSA | ||
HILIC | ||
Silica |
Polymer Based
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Flexible & Cost-Effective – Adaptable for various filtration applications.
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Good Mechanical Strength – Resists physical stress and bending.
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Hydrophobic & Hydrophilic Options – Suitable for water purification, biomedical filtration, and industrial separation.
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Common Types: SDB, HLB, MPC, MAX, MCX
More than 40 types of Membrane to meet your needs
Faster Extractions. Less Solvent. Better Results.
SPE technology enhances efficiency by reducing extraction time, lowering solvent consumption, and improving analyte recovery. Designed for modern laboratories, it ensures reproducible, high-quality purification with minimal manual effort.
Greatest Uniformity
✔ Uniform sorbent particle distribution
✔ Enables superior extraction at high flow rates
✔ Ideal for high-throughput applications
Highest Density
✔ Reduces distance between particles
✔ Improves extraction efficiency
✔ Eliminates channeling effect
Less Fine Particles
✔ Minimizes free fine particles
✔ Results in cleaner extract for analysis
Low Elution Volume
✔ Less solvent required for extraction
✔ Reduces evaporation steps
✔ Minimizes total solvent usage