Heavy Metal Analysis

Mercury Analysis is an essential scientific procedure that carefully measures the amount of mercury in environmental samples. This process is crucial for maintaining ecological balance and ensuring public safety by adhering to health standards. The analysis involves a series of steps, including the collection of samples from various sources, their preparation for testing, and the precise measurement of mercury using specialized instruments. This helps in identifying any harmful mercury levels that could potentially impact human health and the environment.

Inductively Coupled Plasma – Optical Emission Spectrometry (ICP-OES) is a powerful analytical technique used for the detection and quantification of chemical elements. This method employs inductively coupled plasma to produce excited atoms and ions, which emit electromagnetic radiation at wavelengths characteristic of each element.

• Simultaneous Elemental Analysis: ICP-OES allows for the simultaneous detection of multiple elements, including Manganese, Iron, Copper, Zinc, Barium, Cadmium, Lead, Nickel, Selenium, Arsenic, and more.
• High Sensitivity and Precision: This technique provides highly sensitive and precise measurements, making it ideal for trace element analysis in various sample types.
• Versatility: ICP-OES is applicable to a wide range of fields, including environmental monitoring, industrial quality control, and research in materials science and chemistry.

ICP-OES is essential for ensuring the quality and safety of products, monitoring environmental pollutants, and conducting advanced research. Its ability to provide accurate and reliable elemental analysis makes it a cornerstone of modern analytical chemistry.

Atomic Absorption Spectrometry (AAS) is a precise analytical technique used for the quantitative determination of chemical elements. This method relies on the absorption of optical radiation (light) by free atoms in the gaseous state, allowing for accurate elemental analysis.

• Elemental Analysis: AAS is used to analyze a wide range of elements, including Manganese, Iron, Copper, Zinc, Barium, Cadmium, Lead, Nickel, Selenium, Arsenic, and more.
• Quantitative Determination: This technique provides precise measurements of element concentrations, making it invaluable for various industries and research fields.
• Versatility: AAS is applicable to diverse sample types, including environmental, biological, and industrial materials.

Atomic Absorption Spectrometry is essential for ensuring the quality and safety of products, monitoring environmental pollutants, and conducting research in fields such as chemistry, biology, and materials science. Its accuracy and reliability make it a cornerstone of elemental analysis.