Significance of Gas Chromatography Mass Spectrometry

Gas Chromatography Mass Spectrometry (GC-MS) is an analytical technique used across various scientific fields. It combines gas chromatography and mass spectrometry to identify and quantify compounds within a sample. This method is used to analyze complex mixtures, including volatile organic compounds, plant extracts, and biological samples. GC-MS helps determine chemical compositions, identify bioactive molecules, and profile metabolites, making it a versatile tool for research and analysis.

Synonyms: Gc-ms, Mass spectrometry, Gas chromatography

The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.

Hindu concept of 'Gas Chromatography Mass Spectrometry'

Hinduism Books

In Hinduism, Gas Chromatography Mass Spectrometry is interpreted as an effective diagnostic method, particularly useful for identifying cannabis.

Significance in Ayurveda (science of life):
Ayurveda Books

From: International Research Journal of Ayurveda and Yoga

(1) It is a method that is most effective to find cannabis and is helpful in diagnosis.[1]

Ayurveda is a branch of Indian science dealing with medicine, herbalism, taxology, anatomy, surgery, alchemy and related topics. Traditional practice of Ayurveda in ancient India dates back to at least the first millenium BC. Literature is commonly written in Sanskrit using various poetic metres.

The concept of Gas Chromatography Mass Spectrometry in scientific sources

Science Books

Gas Chromatography Mass Spectrometry (GC-MS) is a powerful analytical technique. It combines gas chromatography and mass spectrometry to identify and quantify compounds in a sample. This method is used across various fields, including plant extract analysis, essential oil analysis, and identifying chemical constituents.

Significance in Health Sciences:
Health Sciences Books

From: International Journal of Pharmacology

(1) This is an analytical technique used to identify and quantify the volatile components in the essential oils.[2] (2) It is a technique used for identification of specific compounds in essential oils through comparison of their relative retention times/indices and fragmentation peaks in mass spectra.[3] (3) It was performed with an Agilent GC 6890 coupled to an MSD 5973N under specific instrumental conditions.[4] (4) This is the GC-MS analysis of the extract, for which the chromatogram is presented in Fig. 1.[5] (5) It is a system equipped with gas chromatograph and mass spectrometer detector at Central Laboratories Network.[6]

From: Asian Journal of Pharmaceutics

(1) This technique is used in pesticide residue analysis to find and measure any compounds in the formulation.[7] (2) This analysis is performed using a Shimadzu GCMS-QP 2010 gas chromatograph mass spectrometer.[8] (3) This is an analysis used to show that fatty acids and esters of fatty acids were detected as significant components in the ethyl acetate fraction.[9] (4) A method used to analyze the surfactant content, helping to determine the purity and composition of the synthesized surfactants.[10] (5) It is a technique used to reveal the presence of 12 bioactive compounds, displaying the peak area, chemical formula, and molecular weight for the aqueous extract of P. ostreatus sample.[11]

From: Journal of Medicinal Plants for Economic Development

(1) This term refers to an analytical method used to identify and quantify the different components in a sample, which is applied to investigate the chemical profile.[12] (2) This is the method used to analyze the ethylacetate fraction of the fruit extract, identifying the bioactive compounds present and providing insight into their composition.[13] (3) This is an analytical technique used to identify and quantify the volatile compounds present in the plant extracts, allowing for the determination of the chemical composition.[14]

From: The Malaysian Journal of Medical Sciences

(1) This is an analytical technique used to identify and quantify different molecules in a sample, often used in metabolomics to analyze biological samples.[15]

From: Onderstepoort Journal of Veterinary Research

(1) It is an analytical technique used to identify and quantify volatile compounds, such as phenols, in urine samples, providing detailed chemical analysis.[16]

Significance in Environmental Sciences:
Environmental Sciences Books

From: International Journal of Environmental Research and Public Health (MDPI)

(1) This technique was used to analyze the prepared urine samples, identifying and quantifying the target compounds.[17] (2) Gas chromatography-mass spectrometry data is processed using a Python toolkit, and a comparative study of selected tools is conducted.[18] (3) Gas chromatography-mass spectrometry is used to determine selected non-steroidal antiinflammatory drugs in wastewater.[19] (4) Gas chromatography-mass spectrometry (GC-MS) is an analytical technique used to identify and quantify different substances within a test sample by separating and detecting compounds based on their mass-to-charge ratio.[20] (5) It is an analytical technique used to analyze the headspace air of pleural fluid, employing solid-phase microextraction to measure polycyclic aromatic hydrocarbons and BTEX.[21]

From: Sustainability Journal (MDPI)

(1) It is a technique that effectively identifies organic molecules in works related to cultural heritage.[22] (2) Gas chromatography–mass spectrometry (GC–MS) of biocrude at different time intervals revealed that 16 h of heating during hydrothermal liquefaction resulted in the most complete reaction, with the least background noise.[23] (3) An analytical technique that combines the separation capabilities of gas chromatography with the identification capabilities of mass spectrometry to analyze complex mixtures of organic compounds.[24]