Accelerate Your Throughput and Be More Productive with State-of-the-Art ICP-MS Instruments

Inductively coupled plasma mass spectrometry (ICP-MS) is a key technology for trace elements in routine focused laboratories.

The determination of trace elements is regulated in a number of sample matrices, including drinking waters (EPA method 200.8 and ISO method 17294), waste waters (EPA method 6020B), foodstuffs (AOAC method 2015.01) and pharmaceutical products (United States Pharmacopeia chapters <232> and <233>).

In many cases, contract laboratories are key players to turn over the large amount of samples coming through from smaller and mid-size municipalities (unable to perform cost-efficient testing themselves), or companies that do not want to operate specialized laboratories with lower sample throughput. Contract laboratories can, therefore, offer cost-efficient analysis through higher numbers of samples, and specialize to offer dedicated solutions for key requirements.
Consequently, contract laboratories have a stringent demand set on analytical instruments, allowing them to be highly cost efficient, through minimized sample turnover times, and maximized system uptime. This again is facilitated by the instrument manufacturers through intelligent solutions for sample handling, instrument performance and reduced maintenance requirements in routine operation.

New technology, such as triple quadrupole ICP-MS is key to overcoming challenges including unexpected interferences requiring post-analysis assessment of the data and labour intensive subsequent re-runs.

This on-demand webinar demonstrates how modern ICP-MS instruments, such as the Thermo ScientificTM iCAPTM RQ ICP-MS and Thermo ScientificTM iCAPTM TQ ICP-MS, can help to solve the above mentioned challenges. The presentation also shows how key metrics including turnover time per sample or maintenance required downtime can be reduced without compromising system performance.

By viewing this on-demand webinar you will...

• get to know new solutions to increase sample throughput, overcome interferences more efficiently, and reduce the system downtime through care and maintenance

• reduce the number of re-runs, by getting quality results first time

• learn how easy it is using modern software tools to integrate improved technology for sampling and analysis into your laboratory and reach another level of analytical possibilities

• find out how your laboratory will benefit from upgrading to triple quadrupole ICP-MS routine analysis with no obstacles for your operators

This presentation is suitable for...

• operators and managers of contract labs who want to improve their ICP-MS cost of ownership through improved ICP-MS operational best practices

• laboratory managers of government or QA/QC laboratories who are looking for new opportunities to improve the performance of their laboratory

• trace-elemental analysts who want to overcome the challenges and limitations encountered with single quadrupole ICP-MS, or who are interested in how triple quadrupole technology will help them do more

• operators in industry and universities who want to know how this technique can facilitate everyday routine laboratory analysis

Presenter: Richard F. Jack, PhD (Thermo Fisher Scientific Inc.)

Richard is the senior director of vertical marketing for the environmental and industrial markets at Thermo Fisher Scientific Inc. with over 15 yrs. experience with chromatography and mass spectrometry. Richard received his PhD in Biochemistry and Anaerobic Microbiology from Virginia Tech University in Blacksburg, Virginia, USA. He has been a product manager for Hitachi High Technologies and Dionex before taking his current role.

Presenter: Dr Daniel Kutscher (Thermo Fisher Scientific Inc.)

After graduating with a degree in chemistry in 2007, Daniel obtained his PhD from the University of Oviedo in 2011. In the same year, he joined Thermo Fisher Scientific as an Application Specialist for ICP-MS, and became Product Marketing Specialist in 2018.