video

On-demand webinar: High speed for your material analysis

Posted: 3 November 2021 | | No comments yet

In this webinar, discover how an innovative 2-in-1 method for material analysis accelerates visual and chemical particle analysis in the pharmaceutical industry.

Analysing particulate contaminants in your pharmaceutical samples can be a real challenge.

Watch this webinar on-demand and learn from our expert, Dr. Konstantin Kartaschew, how the intelligent combination of light microscopy with laser-induced breakdown spectroscopy will truly accelerate your root cause analysis workflow.

During a live demonstration on typical pharmaceutical samples, you will experience first-hand how it works in practice.

Key learning outcomes:

  • Learn how to quickly and efficiently determine the shape, size, colour and composition of your particulate contamination in a single work step.
  • Understand the benefits of simultaneous visual and chemical particle analysis over conventional root cause analysis techniques using SEM/EDS.
  • Learn all about the innovative LIBS technology and the meaning of spectral fingerprints for your highspeed particle analysis.

Konstantin Kartschew Rahmen Dr. Konstantin Kartaschew, Advanced Workflow Manager, Leica Microsystems

Konstantin is an Advanced Workflow Manager at Leica Microsystems. He studied Biochemistry at the Ruhr University Bochum (Germany), where he focused on various types of micro-spectroscopic analysis of biological, organic and inorganic samples. After his PhD in physical chemistry, he worked as a product specialist for spectroscopy at a major analytical instrument company, before joining Leica Microsystems in 2019 as a specialist for LIBS (Laser-induced Breakdown Spectroscopy) and other compound microscopy applications.

Email: [email protected]

Telephone: +49 6441 294124

    To watch this on-demand webinar in full, please complete the form below:

     









    This specialist content is provided to you free-of-charge thanks to the kind support of Leica Microsystems


    By clicking submit you confirm that you accept our terms and conditions and privacy policy.

    Leave a Reply

    Your email address will not be published. Required fields are marked *