Timegated® references and case studies
Explore our partner’s and customer’s success stories
Explore success stories to find more detailed showcases of how Timegated® technology solutions have made a significant impact across the biopharma industry.
Duquesne University, Pfizer and NIPTE
Timegated® Raman Technology to eliminate fluorescence from the measurements
The project team appreciates Timegated® Raman Technology and its ability to monitor bioprocesses while minimizing fluorescence appearance: – ‘There's no technology like this out there commercially available.’
I’m very excited to contribute to this revolutionary step by using time-gated Raman spectroscopy in bioprocessing.
Finnish Red Cross Blood Service
Timegated® Raman spectroscopy in extracellular vesicle (EV) research and production for quick and non-destructive insights into molecular compositions
Extracellular vesicles are novel candidates for therapeutic purposes in the field of biopharma. The purification process is critical for ensuring the high-quality of the final bioproduct. Challenges during purification include achieving optimal purity and yield. Time-gated Raman spectroscopy offers a convenient solution by providing real-time information during the separation process, thereby speeding up monitoring and reducing the need for extensive analysis.
The use of time-gated Raman in EV research and production can provide quick and non-destructive insights into molecular compositions and the quality of EVs without touching the blood bag.
Zurich University of Applied Sciences
Monitoring biotechnological cultures with Timegated® Raman spectrometer
The most important goal for ZHAW in working with Timegated® Technology is monitoring and analyzing biotechnological cultures. With access to Timegated® Raman spectrometer, the ZHAW team has been able to obtain accurate estimations of biotechnological cultures and the chemical composition of materials in a bioreactor.
Timegated® technology could help us in several ways to better tackle confounding factors that we have to deal with in the complex matrix of biotechnological cultures.