Handheld ternary catalytic analyzer for ternary lithium battery spectrometer - Yingzhou Technology (Shanghai) Co., Ltd

EVIDENTHandheld ternary lithium battery spectrometer

Model: VANTA

Yingzhou Technology (Shanghai) Co., Ltd

Yijingtong China authorized first level agent, Yijingtong China Sales and Service Center

Address: Room 408, Building 2, No. 508 Chundong Road, Minhang District, Shanghai

Cobalt is an important element used in the manufacture of rechargeable batteries. Cobalt'sAttributes help improve the thermal stability of batteries. The thermal stability of the battery is crucial for it to function properly. Cobalt also helps to increase the energy density of certain batteries, thus extending their lifespan.

In order to meet the high demand for cobalt, geologists need tools that can help them quickly and accurately explore for cobalt.Handheld ternary catalytic analyzer for ternary lithium battery spectrometerIt is a type of tool because this type of analyzer can provide immediate chemical composition results of materials on site.

Compared with traditional XRF equipment in the laboratory,Handheld ternary catalytic analyzer for ternary lithium battery spectrometerNot only can reliable data be provided faster to enable explorers to make correct decisions, but samples can also be screened to provide more suitable samples for laboratory analysis, thereby helping to reduce exploration costs and improve rates. Portable XRF analyzer can screen samples to determine appropriate samples for analysis. This preparation of samples enables portable XRF analyzers to obtain high-quality quantitative data that is close to laboratory analysis results.

Challenges faced in analyzing cobalt elements

XRF analysis is susceptible to interference between elements. Iron (Fe) and cobalt (Co), nickel (Ni) and cobalt (Co) are two common examples of interference. This means that when there is a large amount of iron present, it is difficult for XRF analyzers to distinguish low levels of cobalt. Similarly, the presence of nickel can also make it difficult for XRF analyzers to distinguish cobalt. Unfortunately, the cobalt we usually explore is accompanied by a large amount of iron and nickel.

To address this challenge, we have developed geochemical methods for the VANTA portable XRF analyzer. This method can detect cobalt coexisting with iron and nickel in ores, thus improving the performance of Vanta analyzer in exploring metals for batteries. This innovative approach solves the long-standing problem of interference caused by the presence of other elements, which makes it difficult for portable XRF analyzers to detect cobalt.

The method we developed for the Vanta analyzer is based on the current geochemical (GeoChem) method, but more complex deconvolution processing is used for the peaks of iron, cobalt, and nickel. Before deploying this solution, we have tested it using customer samples to ensure its accuracy and reliability.

Test results