Among the preferred testing techniques to ensure the quality and safety of rechargeable lithium-ion batteries (LiBs) is inductively coupled plasma optical emission spectroscopy (ICP-OES), and PerkinElmer’s trusted Avio® Max ICP-OES series offers different reliable and robust solutions, depending on your application needs.
Whether using the Avio 220 Max or Avio 550 Max instrument, PerkinElmer offers a Li-ion Battery ICP-OES e-Methods Pack which provides all the methods you need in one place. Our e-Methods Pack is a collection of materials to aid in analyzing specific sample types and contains all the critical knowledge you need to get started. With the Lithium-Ion Battery ICP-OES e-Methods Pack, you get all the methods and none of the complexity.
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PerkinElmer’s Lithium-ion Battery ICP-OES e-Methods Pack, available on Syngistix™ for ICP software version 5.5 or higher, contains method guides, including sample preparation and instrumental setups. It provides suggested sample introduction and consumables information, with prebuilt methods, all supported by Syngistix software, including a guide showing how to add the methods to your current software.
With our LiBs ICP-OES e-Methods Pack, you’ll benefit from:
The global need to develop new types of batteries is giving rise to a host of different analytical testing techniques needed to ensure the quality and safety of batteries and battery materials. Among the preferred testing techniques is inductively coupled plasma optical emission spectroscopy (ICP-OE ...
随着电池新用途的出现,其使用量也正在迅速增长,进而促进了新的电池类型、相关技术和材料的发展。不同类型的电池中都包含一些常用元素,这包括锂、锰、镍、磷和锌等,这些元素的含量百分比范围从个位数到30%不等,具体取决于电池类型。 要想实现电池的最佳性能,就必须准确知道电池中主要元素的比例,任何偏差或电池中的杂质都会对电池性能产生负面影响。因此,必须对主要元素的含量进行高精度分析,同时测量杂质水平。 ICP-OES具有很高的精度,可以精确地测量电池中的杂质含量(精度到达µg / L级),并且对基质具有很高的耐受性,是满足以上需求的理想选择。这里展示了使用珀金埃尔默公司的Avio® 550 Max IC ...
With the growing adoption and use of lithium-ion batteries, the need to increase production has also risen. A major challenge of increasing production is acquiring the necessary raw materials, particularly elements common in cathode materials, and while these elements can be extracted from the earth ...
In lithium-ion battery recycling, soft solvometallurgy based on deep eutectic solvents (DESs) is gaining attention as a metal extraction technique due to its combination of high recovery efficiency, low cost, biodegradability and, in some cases, the ability to dissolve metal oxides. This application ...
Cathode materials, such as LiNixMnyCo 1-x-yO2, are among the most promising materials for improving the performance of batteries. The performance and qualities of these materials can be greatly impacted by the ratio of Ni-Mn-Co and Li, as well as the impurities in the materials. The analysis of thes ...
As a power supply for green energy, lithium-ion batteries (LiBs) are being widely used across many fields, therefore their increased performance and safety are becoming the new challenge for LiBs manufacturers and researchers. Among all the components in LiBs, the electrolyte is the most critical si ...
Reclaiming important metals from recycling spent batteries is a key source of elements vital to lithium batteries. One of the main reclamation processes for spent batteries involves shredding and incinerating the batteries, resulting in a product known as black mass, which contains the metals of int ...
This guide offers an overview of analyses required throughout the battery value chain - learn about innovative analytical solutions for testing every part of the battery, including the anode, cathode, binder, separator, and electrolyte. See the value in data generated from a variety of applications ...