Filter by automation level and/or analytical configuration.
Perform multiple 100% unattended dissolution runs including media preparation, vessel filling and self-cleaning of the system.
Real-time UV-Vis analysis and results from an entire sequence of dissolution tests with true end-to-end automation.
World's most compact fully automated dissolution system with integrated UV-Vis and sample collection for up to 90 timepoints.
Fully automated benchtop dissolution system with unattended media preparation, vessel filling, filtration, and self-cleaning.
Benchtop system with integrated UV-Vis photospectrometer for real-time results from multiple dissolution runs.
True end-to-end automation of dissolution tests with integrated UV-Vis analysis and collection of withdrawn samples.
Fully automated self-cleaning dissolution system with bottom-valve technology and integrated media preparation.
Execute several unattended dissolution runs with integrated UV-Vis analysis and automated vessel filling & cleaning.
UV-Vis analysis in realtime and flexible sample collection for a series of dissolution tests with up to 90 time points.
Perform multiple dissolution tests with automatic injection into your HPLC / UPLC without any operator action required.
Semi-automated dissolution system to automatically withdraw, filter, and collect samples.
Double your capacity and collect samples from two dissolution baths in one single autosampler.
Combine online UV-Vis analysis with automatic sample withdrawal in one dissolution testing system.
Maximize use of your spectrophotometer with simultaneous UV-Vis analysis of two dissolution tests at the same time.
Immediate dissolution results with online UV-Vis measuring and flexible sample collection for further offline analysis.
Share your online UV-Vis photospectrophotometer and offline sample collector between two dissolution baths.
Automated injection of collected dissolution samples directly into your HPLC / UPLC system.
Easy to operate dissolution tester for flexible sample withdrawal and advanced monitoring possibilities.