Avoid titration mistakes through best practice sensor handling
Metrohm: Avoid titration mistakes through best practice sensor handling
Have you ever wondered how the quality of your sensor can influence your titration results?
In this webinar, Dr. Sabrina Gschwind, sensors product manager at Metrohm, will detail proper sensor maintenance and how you can check and monitor the performance of your unit. In addition, you will receive tips and tricks to increase the quality of your titration results and thus avoid wasting time on tedious root cause analysis and instrument downtime due to sensor failure.
Key Learning Objectives:
-
Learn which component of a sensor has which function
-
Learn how to clean, maintain, and store the most commonly used titration sensors
-
Understand how the sensor can influence your titration results
-
Gain the know-how to overcome the most common titration errors
Who should attend?
Everybody involved in performing potentiometric or photometric titrations and who wishes to gain more in-depth knowledge about which sensors to use, sensor maintenance, storage, as well as tips and tricks for best titration results.
Presenter: Sabrina Gschwind (Product Manager Sensors, Metrohm AG)
Sabrina has been working at Metrohm International Headquarters for almost 5 years, initially in the application lab developing tailor-made applications. Since 2016, Sabrina has been the product manager responsible for the Metrohm sensor portfolio, which includes pH, metal and ion-selective electrodes, and photometric sensors as well as conductivity measuring cells. In this role, she is not only taking care of the entire product lifecycle, but also provides support and training for sensors.
Presenter: Dr. Matthew McArdle (Editor, SelectScience)
Matthew McArdle is a member of the editorial team at SelectScience and plays a key role in content production, specializing in molecular biology and biochemistry fields. He has a Ph.D. from Leeds University, where he researched the effects of promoter-driven gene expression on vascular smooth muscle cell growth.