Flame Photometry Precision Alkali & Alkaline Earth Metal Analysis
Flame Photometry, also known as Flame Atomic Emission Spectrometry, is a simple and reliable technique used for the quantitative determination of alkali and alkaline earth metals such as sodium (Na), potassium (K), calcium (Ca), and lithium (Li). At SIMA LABS, our advanced flame photometer systems ensure accurate and rapid analysis of these essential elements in a variety of matrices—supporting both quality control and regulatory testing needs.
Key Offerings:
- Quantitative analysis of Na, K, Ca, Li, and Ba in various sample types
- Rapid testing with high sample throughput
- Customized testing protocols for pharmaceutical, food, and environmental matrices
- Calibration with certified standards for high accuracy and reliability
- Cost-effective solution for routine elemental analysis
Pharmaceuticals
Estimation of sodium and potassium content in raw materials and formulations.
Agriculture
Soil and fertilizer testing for macro-nutrient content.
Industrial & Chemical
Analysis of salts and chemicals used in manufacturing and production processes.
Nutraceuticals & Food
Quantification of essential minerals in health supplements, dairy, beverages, and processed foods.
Environmental Monitoring
Detection of alkali metals in water samples (drinking water, wastewater, and effluents).
Applications
Flame Photometry is a reliable analytical technique used for the rapid and accurate quantification of alkali and alkaline earth metals—such as sodium, potassium, calcium, and lithium—in a variety of sample matrices. Widely utilized in pharmaceuticals, food, agriculture, and environmental testing, this method supports routine quality control by ensuring elemental consistency, nutritional adequacy, and regulatory compliance.
Primarily sodium (Na), potassium (K), calcium (Ca), lithium (Li), and barium (Ba).
It provides excellent accuracy for routine analysis when calibrated properly using certified reference standards.
Flame photometry is best suited for low to moderate concentration levels (ppm range). For ultra-trace detection, ICP techniques are more appropriate.
Primarily, flame photometry is used for liquid samples. Solid samples must be digested or dissolved into liquid form prior to analysis.
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