PN3310 Viscometer - Online Viscometry for FFF and GPC
The Postnova PN3310 Viscometer detector is a state-of-the-art intrinsic viscosity detector for Field-Flow Fractionation (FFF) and Size Exclusion Chromatography (GPC/SEC). It is based on the proven Wheatstone-Bridge design for measuring the intrinsic viscosity of macromolecules in solution. The instrument is designed in the modern and compact Postnova FFF detector design.
The Postnova PN3310 Viscometer detector shows an outstanding performance and is equipped with highly sensitive pressure transducers. The special pressure sensor protection system (PSP) automatically avoids critical overpressure on the pressure transducers. The instrument shows excellent baseline stability with extremely low drift and superior signal-to-noise ratio. Up to four analog signals from external detectors (e.g. RI, UV, Fluorescence) can be connected to the PN3310 Viscometer detector. The instrument is fully controlled by the powerful and user-friendly
NovaMALS software that can integrate additional detectors such as Multi-Angle Light Scattering (MALS), Refractive Index (RI) and UV Absorbance.
Together with the Postnova PN3621 MALS detector and the Postnova PN3150 RI detector a modular, flexible and compact “Triple Detection System” can be set up. With a Postnova PN3211/12 Dual Wavelength UV or a PN3241 Diode Array UV as a second concentration detector, even a “Quadruple Detection System” can be configured.
Using the Postnova PN3310 Viscometer detector in combination with a concentration detector (RI, UV) and a light scattering detector (MALS) the molecular size (hydrodynamic, gyration) and the molecular structure (shape, branching) of macromolecules can be determined. Both with and without the addition of a Light Scattering detector to the PN3310 Viscometer, the Mark-Houwink plot (molecular weight vs. intrinsic viscosity) can be derived using the NovaMALS software. The Mark-Houwink plot is the most powerful structure plot in macromolecular analysis containing a large amount of information about the size, shape, structure and molecular weight of macromolecules