The size or aggregation number (N) of these micelles is an indication of their efficiency for solubilization and also correlates with the viscosities of their solutions. Learn more by reading our application note.
Learn how to characterize detergent by using light scattering by reading our application note.
In order to develop a rapid method of detecting compound behavior, we utilized the DynaPro Plate Reader to examine the light scattering properties of a dilution series of known aggregating inhibitors. Learn more by reading our application note.
In this application note, we studied genetically engineered polypeptides that undergo controlled self-assembly into monodisperse nanoparticulates.
The presence of aggregation in immunoglobulin biopharmaceuticals is a significant concern during all phases of drug development. Learn more by reading our application note.
Learn how to screen MABs by reading our application note.
Learn how to characterize different VLP fractions (fragments, monomers, dimers, trimers and aggregates) by reading our application note.
In this application note, we develop an Asymmetrical Flow Field Flow Fractionation (AF4) method that provides separation and quantification of the monomer’s soluble and insoluble aggregates as well as the determination of the molecular weights.
Emulsion particle size has a profound effect on the physical properties of the emulsion, as well as on its stability. Learn more by reading our application note.
Learn how to characterize virus particles thoroughly in terms of their size distribution, aggregation, and absolute counts-per-unit volume by reading our application note.
In this application note, a proprietary peptide hormone (MW~ 3500), was evaluated for its aggregation behavior using the Eclipse AFFF.
Learn how to characterize particles by reading our application note.