Researchers seeking accurate and reliable experimental results now have access to a stable analytical standard - 99% pure oxalic acid, designed to streamline scientific investigations.
Oxalic acid, also known as ethanedioic acid, occurs naturally in various plants and vegetables. This potent dicarboxylic acid serves multiple purposes as both an analytical reagent and a general reducing agent. In scientific research, oxalic acid plays a crucial role in analytical methods including HPLC, GC, and MS, where it's commonly used for qualitative analysis, quantitative measurement, and methodological studies.
The high-purity oxalic acid standard offers 99% purity, guaranteeing experimental accuracy and reliability. This exceptional purity level minimizes interference from impurities, yields clearer analytical results, and increases experimental success rates. Researchers can trust the consistency of data obtained using this standard.
Analytical standards form an essential component of scientific experimentation. These reference materials serve critical functions in instrument calibration, method validation, and result evaluation. The oxalic acid standard undergoes rigorous quality control to ensure batch-to-batch consistency and stability, eliminating concerns about compromised experimental outcomes due to standard quality issues.
The 99% high-purity oxalic acid standard supports numerous research and analytical applications, including:
- HPLC (High-Performance Liquid Chromatography): Quantitative analysis and separation of oxalic acid and related compounds
- GC (Gas Chromatography): Analysis of oxalic acid derivatives, particularly esterified forms
- MS (Mass Spectrometry): Identification and quantitative analysis of oxalic acid and related compounds
- Titration Analysis: Standard solution for determining concentrations of other substances
- Chemical Synthesis: Reactant or catalyst in organic synthesis reactions
The high-purity oxalic acid standard offers several benefits for researchers:
- Exceptional purity (99%) ensures accurate experimental results
- Stringent quality control guarantees product stability and consistency
- Versatile applications across multiple research and analytical methods
This reliable standard provides researchers with confidence in their experimental outcomes, supporting advancements in scientific research across various disciplines.