From Brine to Battery: Trusted Analytical Support
Supporting Battery Innovation with Advanced Trace Analysis and TOC Screening
For batteries to perform at their best, raw materials need to be of high purity. Our analyzers excel in trace elemental impurity and organic contamination screening. TOC analysis is also of interest in brines that are being reinjected. We are proud to support battery innovation with our expertise in trace analysis. Our application specialists are here to assist with method development and to share their insights on sample digestion.
Analyze with us
- Elemental composition of virgin and recycled battery raw materials
- Organic contamination of battery raw materials and brines
Technologies
- Elemental analysis (ICP-OES, ICP-MS, AAS)
- Total organic carbon (TOC)
Highlights
- Excellent trace detection combined with high wt-% range
- Tailored Solutions for high-salt samples and brines
From Trace Metals to TOC - We’ve Got You Covered
Discover our compact ICP-OES, built for trace analysis with unparalleled resolution (2 pm at 200 nm) and a wide dynamic range from low ppb to high wt-%. Enjoy fast startup in under 10 minutes, longer consumable life, and the smallest footprint on the market. Our efficient ICP-MS cuts argon use by 50% and boosts throughput. Plus, our AAS enables true multi-element analysis with just one lamp.
Analyze TOC from 4 µg/L to 30,000 mg/L with a single method. All consumables are easily accessible via front doors for quick maintenance. When running high salt samples calibration remains stable thanks to a continuous adjustment for gas flow fluctuations. Furthermore, our new salt kit extends maintenance intervals. For brine samples, our TIC control function in NPOC methods ensures that TIC is not mistakenly included in TOC results.
Updated e-Book – Ensuring a Circular Economy with Recycling of Lithium-Ion Batteries
Explore selected applications in lithium-ion battery production, virgin raw material recovery, and cathode recycling. The e-book addresses current challenges faced by research institutions and labs in the industry.
Explore the Full Battery Value Chain – On Demand!
Missed our recent web seminars? Now's your chance to dive into the key challenges and innovative solutions across the entire battery lifecycle. From raw material extraction and midstream refining to end-of-life battery recycling, our expert-led sessions provide valuable insights into building a more sustainable and efficient battery supply chain.
Watch the recordings now:
Challenges and Solutions for Mining of Raw Materials
Selected Application Notes for Battery Analysis Determination of Cobalt, Lithium, Nickel, Magnesium, Black Mass, and More
Impurities in Nickel and Cobalt Sulphate by HR-ICP-OES (EN)
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Analysis of Black Mass using HR-CS AAS (EN)
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Recycling of Lithium Ion Batteries (LIB) - Determination of the Elemental and Organically Bound Carbon in Black Mass by Pyrolysis Method (EN)
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Analysis of Black Mass (Cathode Material of Lithium-Ion Batteries) Using HR-ICP-OES (EN)
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Analysis of Lithium Ore with HR ICP-OES (EN)
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Online Analysis of Lithium in Brine Samples by HR-ICP-OES (EN)
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Benefits of TIC analysis in lithium battery recycling for Lithium recovery (EN)
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Precious Metal Analysis in Electronic Waste by HR ICP-OES (EN)
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Fast Analysis of Lithium Ore Using Flame-AAS contrAA 800 (EN)
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Analysis of Lithium Carbonate for Lithium-Ion Battery Applications (EN)
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