Mastering Charged Aerosol Detection: Comprehensive Technical Insights
Discover the transformative power of Charged Aerosol Detection (CAD) technology and the innovative Inverse Gradient technique in our upcoming webinar. This session will provide a comprehensive overview of CAD, renowned for its universal and sensitive detection capabilities, making it essential for various analytical applications.
Key Learning Points:
- Understanding CAD Technology: Learn how CAD operates and its advantages over traditional detection methods.
- Benefits for Non-Volatile and Semi-Volatile Analytes: Explore the unique benefits CAD offers in detecting non-volatile and semi-volatile compounds.
- Inverse Gradient Technique: Discover how the Inverse Gradient technique enhances CAD performance, improving detection of late-eluting compounds and reducing baseline noise.
- Real-World Applications: Through case studies and real-world examples, see how CAD and Inverse Gradient can be seamlessly integrated into laboratory workflows.
Your Benefits:
- Improved detection accuracy and sensitivity for diverse sample types.
- Enhanced performance in detecting challenging compounds.
- Robust and reliable results that elevate your laboratory's analytical capabilities.
- Practical strategies for integrating advanced technology into existing workflows.
Join us to uncover how Charged Aerosol Detection can drive scientific innovation and elevate your laboratory's analytical capabilities.
Presenter: Mark Netsch (Field Application Specialist, Thermo Fisher Scientific)
Mark Netsch is a Technical LC Specialist for Liquid Chromatography at Thermo Fisher Scientific since 2010. In this role Mark provides application support and product demonstrations for liquid chromatography customers. Before joining Thermo he worked for 26 years in contract laboratories performing a variety of pharmaceutical and environmental analyses.
