Analytical Insights to Drive Decisions

mountain range under blue sky

Coming soon

Our business is launching soon. Contact us to inquire about securing a contract.

Our Expertise

We have 15+ years of experience developing and validating ICP-MS methods for routine and complex applications.

We pride ourselves on our innovative attitude and approach to science. We can provide innovative ideas to support your program or analyze non-routine samples.

We rarely meet a sample we can not analyze.

50+

Method Developments

15+

Years of experience

<1%

Samples that we can't analyze

Applications

Pharmaceutical Materials

Cosmetics

Water

Soil/Sludge

Mining

Solvents

Raw Materials

Food

Our Technology

ICP-MS

  • Sate of the art triple quadrupole instrumentation

  • MS/MS controls the reaction chemistry ensuring consistent, reliable results, even for previously difficult elements like Si, P, and S

  • Collision and reaction cell technology - resolves isobaric overlaps

  • Gold standard for trace elemental impurities and metal detection

  • Can accommodate samples with complex matrices.

Closed vessel Microwave Digestion

  • Dissolves practically all seemingly water-insoluble samples

  • Degrades sample matrix for enhanced sensitivity and accuracy

  • Automated for efficiency

We have state of the art instruments including a triple-quadrupole ICP-MS that is equipped with collision and reaction cell technology. This instrumentation, paired with our technical expertise, allows us to develop robust methods in complex sample matrices achieving trace level detection even of hard-to-quantify elements (like iron, arsenic, and lead).

Closed vessel microwave digestion is the gold standard sample preparation to assist in getting seemingly insoluble samples into solution! We have state of the art automated Closed Vessel Microwave Digestion instrumentation.

an abstract photo of a curved building with a blue sky in the background

Get in touch

Please reach out to us to inquire about metals and elemental testing support.