High Purity Lithium Tetraborate (CAS 12007-60-2)
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Lithium Tetraborate
Lithium Tetraborate (CAS 12007-60-2) is a vital inorganic compound renowned for its role as a high-performance fluxing agent in analytical chemistry. Its ability to significantly lower melting points makes it indispensable for preparing homogenous molten samples, crucial for achieving high accuracy in techniques like X-ray fluorescence (XRF) and inductively coupled plasma (ICP) spectroscopy. This facilitates the precise determination of elemental composition across a wide range of materials.
- Discover the benefits of using lithium tetraborate for XRF analysis, ensuring accurate elemental composition data.
- Learn how lithium tetraborate sample preparation methods enhance the reliability of ICP spectroscopy results.
- Explore the applications of high purity lithium tetraborate in advanced analytical reagents for demanding laboratory environments.
- Understand why lithium borate fusion flux is considered essential for spectroscopic analysis.
Key Advantages
Enhanced Analytical Accuracy
Leverage the power of lithium tetraborate fluxing agent to achieve unparalleled precision in your spectrochemical analyses, a critical factor for robust research outcomes.
Broad Material Compatibility
This inorganic compound excels in dissolving various oxides and silicates, making it a versatile tool for preparing diverse samples for detailed analysis.
Facilitates Complex Fusions
The use of lithium tetraborate in fusion procedures is key to preparing challenging samples, ensuring that critical data is not lost due to incomplete dissolution.
Key Applications
Spectroscopic Analysis
Employing lithium tetraborate for XRF analysis and ICP spectroscopy ensures sample integrity and data accuracy, supporting critical research and industrial processes.
Glass and Ceramics Manufacturing
Its unique properties make lithium tetraborate an important ingredient in the creation of specialty glasses and ceramics, improving their chemical durability and viscosity characteristics.
Geochemical Research
In geological studies, lithium tetraborate serves as a reliable reagent for analyzing the composition of rocks and minerals, aiding in the understanding of Earth's geological history.
Materials Science
The compound's role in materials science extends to the synthesis of advanced materials, where its specific chemical properties can be tailored for novel applications.