Description
Specifications Table
Product Name: Silicon (Si) Atomic Absorption Standard (AAS) in H2O, NIST Traceable
Quantity/Pack Size: 100 ml, 250 ml, 500 ml
Form: Liquid Solution
Grade: Lab Grade
Application: Atomic Absorption Spectroscopy (AAS)
Product Overview
Eqipped’s Silicon (Si) Atomic Absorption Standard (AAS) solution is a high-purity, NIST-traceable reference material designed for accurate analytical measurements in laboratories. Formulated in deionized water, this lab-grade standard ensures reliable calibration and validation of atomic absorption spectrometers. The solution is meticulously prepared to meet stringent quality standards, providing consistent results for trace metal analysis. Its precise concentration and certified traceability make it an essential tool for researchers, educators, and students in analytical chemistry. The solution is packaged in convenient volumes to suit varying laboratory needs, ensuring ease of use and long-term stability. Trusted for its accuracy and reliability, this standard solution is ideal for educational institutions, research labs, and industrial applications requiring precise elemental analysis.
FAQs
1. What is the primary use of this Silicon AAS standard solution?
This solution is primarily used for calibrating and validating atomic absorption spectrometers to ensure accurate silicon (Si) analysis in various samples.
2. Is this standard traceable to NIST?
Yes, this Silicon AAS standard is NIST traceable, ensuring its accuracy and reliability for analytical applications.
3. What is the shelf life of this solution?
The shelf life of this solution is typically 12 months from the date of manufacture, provided it is stored properly.
4. Can this solution be used for other analytical techniques besides AAS?
While primarily designed for AAS, this standard may also be used in other techniques where a high-purity silicon reference is required.
5. What are the storage conditions for this solution?
Store the solution in a cool, dry place away from direct sunlight and heat sources to maintain its stability and accuracy.
