Send us a text In this episode, Mike is joined by Support Chemist Ashley Jones and Stock Production Manager Thomas Kozikowski to tackle listener-submitted questions from the lab. First, they unpack whether a standard additions curve from one sample can be applied to others—exploring when it’s valid, what risks come with instrument drift, and why true matrix matching matters. Then, they take on a tough scenario: how to handle high-throughput analysis of true unknown mineral samples using ICP-O...
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Send us a text In this episode, Mike is joined by Support Chemist Ashley Jones and Stock Production Manager Thomas Kozikowski to tackle listener-submitted questions from the lab. First, they unpack whether a standard additions curve from one sample can be applied to others—exploring when it’s valid, what risks come with instrument drift, and why true matrix matching matters. Then, they take on a tough scenario: how to handle high-throughput analysis of true unknown mineral samples using ICP-O...
Send us a text In this episode, part of our Back to Basics series, we dive into three of the most widely used elemental analysis techniques: Atomic Absorption (AA), ICP-OES, and ICP-MS. Joined by R&D Chemists Liv Forbes & Autumn Phillips and Tech Support Chemist Ashley Jones, we break down how each method works, where they excel, and the challenges that come with them. From AA’s simplicity and cost-effectiveness, to the multi-element strength of ICP-OES, to the ultra-trace detection p...
Bench Boost by Inorganic Ventures
Send us a text In this episode, Mike is joined by Support Chemist Ashley Jones and Stock Production Manager Thomas Kozikowski to tackle listener-submitted questions from the lab. First, they unpack whether a standard additions curve from one sample can be applied to others—exploring when it’s valid, what risks come with instrument drift, and why true matrix matching matters. Then, they take on a tough scenario: how to handle high-throughput analysis of true unknown mineral samples using ICP-O...
