
Discover the advanced technology behind our specialized services
Averica supports chemistry–driven drug discovery and development efforts using our specialized expertise in small molecule analysis and purification. Our goal is to provide the highly pure material and quality information that strengthens your understanding of your compound.
Averica’s laboratory has a wide variety of preparative and analytical chromatography systems and detections systems. Our scientists can choose based on the advantages of each technology and select the one most applicable to your project deliverables.
The Averica Advantage
- Customized instrumentation leading to better recovery and faster turnarounds
- Method development and optimization in only a few hours
- Waterless chromatography in which unreactive solvents can be used
- Highly adapted to chiral separations
- Rapid isolation of trace components in mixtures
- Rapid recovery of solid isolates limits decomposition or reactivity
- Reduced solvent consumption limits waste and conforms to Green Chemistry guidelines
Instrument Technologies & Detection Systems

Preparative Chromatography
- Supercritical Fluid Chromatography (SFC)
- Normal Phase HPLC
- Reverse Phase HPLC
Analytical Chromatography Detectors
- Supercritcal Fluid Chromatography (SFC)
- Normal Phase HPLC
- Reverse Phase HPLC
- UPLC
- UPC^2
- Gas Chromatography (GC)


Detectors
- Photodiode Array UV (PDA/UV)
- Evaporative Light Scattering Detection (ELSD)
- Mass Spectrometry (MS)
- Charged Aerosol Detector (CAD Detector)
- Nuclear Magnetic Resonance (NMR)
- Accurate Mass (MS/MS)
- QTof
Latest Addition
Waters Xevo G2-XS-QTof Mass Spectrometer
The QTof strengthens our Chromatographic Method Developments abilities, allowing us to provide our clients with broad knowledge of their impurities. Our comprehensive package of services covers everything you need for impurity characterization and CMC support, including analytical method development, impurity profiling, and impurity isolation for determining structures and reference standard generation.