PL-GPC 50 Plus: The Ultimate Solution for Polymer Characterisation
The PL-GPC 50 Plus is a high-performance gel permeation chromatography (GPC) system specially designed for laboratories requiring accurate and reliable polymer analysis. This integrated system operates between room temperature and 50°C, offering optimal flexibility for a wide range of analytical applications. Its design minimises dispersion and bandwidth effects, maximising the resolution and accuracy of GPC separations.
The PL-GPC 50 Plus stands out for its versatility and adaptability. It includes a highly sensitive differential refractive index detector , but can also be equipped with optional detectors such as UV, viscosity, light scattering or evaporative detectors. This modularity provides comprehensive information on samples, meeting the specific needs of each laboratory. In addition, its intuitive interface and integrated Cirrus™ software facilitate instrument control, data acquisition and result analysis.
The thermal stability of the PL-GPC 50 Plus is a major advantage. The injector, columns and detector heads are all located in a heated enclosure, ensuring a constant temperature regardless of ambient conditions. This design reduces baseline drift, ensuring reliable and reproducible results. The system also offers exceptional flow accuracy of less than 0.1%, enabling repeatable calibration curves and accurate molecular weight data.
The PL-GPC 50 Plus is also designed for easy and efficient use. It can accommodate up to four 300 mm GPC columns, with easy access for column changes via a hinged front panel. Cirrus™ software enables full automation of operations, including programmable wash cycles and up to nine injections per vial. In addition, network control simplifies remote monitoring and control of the instrument, ideal for connected laboratories.
The PL-GPC 50 Plus is an indispensable tool for laboratories with demanding polymer characterisation requirements. Its combination of performance, flexibility and ease of use makes it the preferred choice for modern GPC analysis.
