At Auriga Research, we utilize advanced GC-MS and GC-MS/MS technologies for the accurate detection and quantification of volatile organic compounds (VOCs), semi-volatiles, and complex mixtures. These technologies are essential across food safety, pharmaceuticals, and environmental applications, where identifying complex compounds requires high specificity and precision. Our approach meets stringent regulatory standards, ensuring reliable and actionable results for diverse industry needs.
GC-MS separates and identifies volatile compounds, providing both qualitative and quantitative data essential for accurate testing.
Reveals crucial details about the arrangement and types of atoms within a crystal, helping in material characterization.
Suitable for applications in pharmaceuticals, environmental analysis, food testing, and forensics, enabling broad-spectrum contaminant analysis
Pharmaceutical Industry
GC-MS and GC-MS/MS detect and quantify impurities and residual solvents in pharmaceutical products, ensuring safety and regulatory compliance.
Food Industry
GC-MS is essential for food safety, detecting contaminants, additives, and flavor compounds to ensure product quality.
Process Impurity Analysis
Environmental Testing
GC-MS and GC-MS/MS play a crucial role in environmental monitoring, identifying and quantifying pollutants in various matrices.
Cannabis and Hemp Testing
Nitrosamine Testing in Pharmaceuticals
Advanced Testing Facilities:
Auriga Research’s laboratories are equipped with cutting-edge GC-MS and GC-MS/MS technology, delivering reliable, high-precision results.
Recent Methodologies:
Our lab applies advanced GC-MS and GC-MS/MS methods to enhance testing accuracy and meet industry requirements:
Accreditations and Approvals:
Auriga Research holds accreditations like NABL, FDA, BIS, and ISO, ensuring that our GC-MS and GC-MS/MS services meet rigorous quality and regulatory standards.
At Auriga Research, we are dedicated to delivering precise, actionable insights through advanced XRD analysis, ensuring innovation and quality in your research and product development processes.
GC-MS and GC-MS/MS can detect and quantify a wide range of volatile organic compounds (VOCs), semi-volatile organic compounds (SVOCs), pesticides, residual solvents, and various environmental pollutants.
GC-MS/MS offers higher specificity by performing multiple stages of mass analysis, reducing background interference, which is ideal for trace detection in complex matrices.
Auriga’s GC-MS and GC-MS/MS systems achieve ultra-trace sensitivity, with detection limits down to parts-per-trillion (ppt) levels, essential for regulatory compliance.
Yes, GC-MS/MS is effective for analyzing cannabinoids, detecting residual pesticides, and identifying contaminants in cannabis and hemp products, ensuring compliance with safety standards.
GC-MS/MS is highly sensitive to nitrosamines, allowing accurate detection of these potentially carcinogenic compounds in pharmaceuticals, ensuring public health and regulatory compliance.
GC-MS is optimized for volatile and semi-volatile compounds, while LC-MS is better for thermally labile or non-volatile compounds, expanding analytical capabilities across different matrices.
Auriga uses automated data analysis systems, multiple reaction monitoring (MRM), and high-resolution mass spectrometry to ensure high-precision, reproducible results.
Absolutely. GC-MS/MS accurately measures additives, preservatives, and flavor compounds, ensuring they meet regulatory limits and are properly labeled.
GC-MS is applied in environmental testing to detect hazardous compounds like PAHs, PCBs, and VOCs in soil, water, and air, supporting pollution monitoring and regulatory compliance.
MRM provides high specificity by monitoring selected ion transitions, which reduces interference and enhances quantification accuracy for targeted analytes
Yes, Auriga Research is accredited by NABL, FDA, BIS, and ISO, meeting stringent quality and regulatory standards across all GC-MS and GC-MS/MS analyses.