Trending Applications

• Degraded Human Insulin »
• Human Insulin »
• Mouse Monoclonal Antibody »
• Protein Test Mix »

• Degraded Myoglobin »
• Bovine Ig-G »
• Peptide Mix »
• Protein Reduction Refold Assay »

Trending Webinars and Webcasts

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  Do I Really Know How Much Aggregate is in my Protein Therapeutic? »

   
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  Method Development Strategies for Intact Protein Analysis by Reversed Phase and Gel Filtration Chromatography  »

   

Frequently Asked Questions (FAQs) for Biomolecule Analysis

• What is an acceptable standard to use for LC/MS method development for oligonucleotides? »
• What is the most common UV wavelength to detect proteins? »
• In GFC, what is a chaotropic agent and how can it be used to determine the molecular weight of a protein? »

Quickly Analyze and Separate Biomolecules

In the biopharmaceutical industry, large molecules that interact with a biological system are all known as biomolecules. Examples of biomolecules include amino acids, peptides, proteins, antibodies, and DNA/RNA oligonucleotides.

Phenomenex offers a variety of specialized HPLC columns for the analysis and separation of biomolecules. In the case of protein analysis, our columns allow scientists to determine protein concentration, as well as the ability to scale up to protein purification. The columns designed for protein analysis contain silica particles with larger pore sizes so they can better interact with the biomolecules injected onto the column. It’s these interactions that separate the proteins to determine protein concentration and eventually scale the process up to protein purification.

Product Spotlight

Method Development and Product Selection

Trending Applications

• Chlorpheniramine »
• Ketoprofen »
• Ifenprodil »
• Oxprenolol »

• Nicardipine  »
• Triticonazole »
• Loctofen »
• Difenoconazole »

Trending Webinars and Webcasts

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  LC Solutions for Improving Chiral Separation Success »

   

Frequently Asked Questions (FAQ) for Chiral Analysis

• How can I reverse enantiomeric elution order? »
• How do aromatic functionalities in chiral compounds affect selectivity? »
• How can I maintain high efficiency during scale up from analysis to purification? »

Achieve High Purity Chiral HPLC Separations

Effective chiral separations have become increasingly important to the pharmaceutical and biopharmaceutical industries. The rapid introduction of optically active medicinal drugs, along with increasing government regulation, necessitates that rapid, sensitive, and reliable stereochemical methods be devised for their analysis. Chiral chromatography is by far the most powerful and sensitive analytical technique for resolving enantiomers.

Phenomenex maintains a dedicated chiral screening services laboratory using our own chiral HPLC columns which can assist you in developing or improving your chiral separation. We can assist you in column selection, method development, scale up, or any other aspect of chiral chromatography.

Product Spotlight

• Lux Chiral LC Columns »
  Polysaccharide based chiral columns for effective screening under Reversed Phase, Polar Organic, Normal Phase, and SFC conditions.

Method Development and Product Selection

Trending Applications

• Binder:Polyethylene Glycol (PEG) »
• Binder:Polyvinylpyrrolidone (PVP, Povidone) »

• Fillers:Sugar Alcohols »
• Coating:Cellulose Acetate »

Trending Webinars and Webcasts

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  Basic HPLC Troubleshooting
  and Column Care »

   

Frequently Asked Questions (FAQ) for Excipient Analysis

• What are the most common causes for baseline drift with RI detectors? »
• What cleaning procedure can I use to regenerate my GPC column? »
• What detectors can be used for sugar analysis? »

Reliable Excipient Analysis

Excipients are the inactive ingredients within a pharmaceutical formulation that hold the active pharmaceutical ingredient (API) and ensure the conveniently sized dose is delivered efficiently and effectively to the targeted area. Excipients are typically inert substances, but sometimes they can give adverse side effects. Modern pharmaceutical regulations require formulation analysis for all ingredients within a pharmaceutical drug to identify all excipient components and guarantee safety of the end product.

Formulation analysis can be achieved through several modes of chromatography including reversed phase, ion-exclusion, and size exclusion chromatography (SEC), which includes gel permeation chromatography (GPC) and gel filtration chromatography (GFC). We offer a wide breadth of products for reliable and reproducible excipient analysis.

Product Spotlight

• Rezex Ion Exlusion Columns »
  Provides excellent resolution for carbohydrates and organic acids
• Phenogel GPC Columns »
  High resolution and tight calibration curves for polymers and small organics

Method Development and Product Selection

Trending Applications

• Procedure A - Class 1 »
• Procedure A - Class 2 »

• Procedure B - Class 1 »
• Procedure B - Class 2 »

Trending Webinars and Webcasts

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  Critical Choices: Best Practices for Improving GC Methods »

   
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  GC Troubleshooting Tips & Tricks From Injection Through Detection »

   

Frequently Asked Questions (FAQ) for Residual Solvent Analysis

• Why is headspace used for the USP Chapter 467 Residual Solvents/Organic Volatile Impurities method? »
• What solvents do I have to analyze using USP Chapter 467, Residual Solvents/Organic Volatile Impurities? »

Reliable Residual Solvent Testing and Confirmation

The USP has provided a method for the identification, control, and quantification of organic volatile impurities (OVIs) and Class 1 and 2 residual solvents, which specifies analytical procedures by GC/FID. Phenomenex offers G16 and G43 phases used in USP Monograph <467>, as well as a collection of tips, tools, and resources to improve and optimize residual solvent testing.

Product Spotlight

• Zebron ZB-624 GC Column »
  Offers improved separation for volatiles and polar compounds
• Zebron ZB-WAXplus GC Columns »
  Provides enhanced selectivity and is 100% aqueous stable

Method Development and Product Selection