Below are the topics that will be covered:
| Current US EPA Methods and Legislation for Elemental Analysis |
| | - US EPA methods for trace element analysis
- The Arsenic Rule
- Collision cell technology and compliance with EPA protocols
|
| Graphite Furnace-AAS in the Modern Environmental Laboratory |
| - Real-time demonstration of GF-AAS analysis with wizard driven software
- Utilizing technology enhancements for quick, efficient GF-AAS analysis
|
| A Dramatically Different ICP |
| - State of the Art ICP-OES – iCAP6500
- Unmatched speed, sensitivity and productivity
- Reduced cost-per-analysis
- Maximum uptime
|
| Productivity Enhancement Tools for ICP-OES Analysis |
| - Improved hardware and software functionality
- Enhanced sample introduction components for maximum throughput
- Automated data reporting and review
|
| Application Solutions: Get the Most From Your ICP-OES System |
| - Interactive presentation with an applications expert
- How to deal with difficult matrices, overlaps and interferences
- Improving data quality
- How to maximize productivity in ICP-OES
|
| State of the Art ICP-MS |
| - The latest technology in Quadrupole and High Resolution ICP-MS
- Overcoming the matrix tolerance issue in ICP-MS
- How to choose between ICP and ICP-MS: key differentiators in performance, matrix tolerance, sensitivity and ease of use
|
| Collision Cell Technology for Interference Removal in ICP-MS |
| - How collision cells work
- A simple and effective way to implement a universal collision cell method for US EPA compliance
|
| Advanced ICP-MS Techniques |
| - Hyphenating HPLC to ICP-MS for elemental speciation
- Speciation techniques in environmental analysis
- High resolution ICP-MS for totally interference-free analysis
|
For furthur product information please visit www.thermo.com/trace
See the Agenda page for program details.
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