HPLC
High Performance Liquid Chromatography (HPLC) is a precise and versatile machine used to separate complex mixtures with exceptional clarity. By pushing solvents through a tightly packed column under high pressure, HPLC distinguishes components based on their interactions with stationary phases. It’s crucial in pharmaceuticals, environmental analysis, and biochemistry for accurately identifying and quantifying substances. Automated and reliable, HPLC’s sensitive detectors ensure precise measurements, setting standards in analytical chemistry for its efficiency and accuracy.
ICP-OES
With our ICP-OES machine, we can detect and measure elements in samples with incredible precision. The machine breaks down the samples into ions and atoms using plasma, and then analyzes the light emitted to identify each element present. This method is swift and widely applied in environmental testing, metals analysis, and pharmaceutical quality control. Its automated features ensure reliable results, making it indispensable for swiftly analyzing multiple elements in complex samples within laboratory settings.
IR Machine
When we use an IR (Infrared) machine, we analyze samples by measuring their absorption of infrared light, which reveals their molecular structure. This method is widely employed in chemistry and material science to quickly identify organic and inorganic compounds, examining functional groups and chemical bonds with minimal sample preparation. IR machines play a crucial role in our research, quality control, and industrial applications, providing rapid insights into molecular compositions.
GC Machine
In pharmaceutical testing, we utilize a GC (Gas Chromatography) machine to precisely separate and analyze volatile compound mixtures. This involves injecting samples into a heated column where compounds vaporize and interact with a stationary phase, allowing us to identify and quantify them based on retention times. GC is crucial for ensuring accurate detection of trace substances in pharmaceutical quality control. Its automated functionality improves efficiency, enabling us to quickly analyze compounds in pharmaceutical research and production with confidence.