Significance of Infrared spectroscopy

Infrared spectroscopy is a powerful analytical technique employed to determine the presence of functional groups in compounds by analyzing their absorption of infrared radiation. This method helps deduce molecular structures and study the properties of various substances by observing characteristic absorption bands. It is widely used for identifying chemical compounds and their interactions, particularly in fields such as herbal medicine, drug formulation, and material science. The technique's ability to provide insights into molecular vibrations and chemical structures makes it an invaluable tool in analytical chemistry.

Synonyms: Ir spectroscopy, Vibrational spectroscopy, Infrared analysis, Ir analysis, Infrared spectrometry, Molecular spectroscopy, Absorption spectroscopy

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The concept of Infrared spectroscopy in scientific sources

Science Books

Infrared spectroscopy is a technique that identifies functional groups in compounds by measuring the wavelengths of infrared light absorbed by a sample, providing valuable insights into molecular structures and chemical composition.

Significance in Scientific journals, articles, etc.:

From: World Journal of Pharmaceutical Research

(1) A technique used to analyze the physical properties of the drug with respect to its functional groups and interactions when formulated.[1] (2) An analytical technique used to identify the chemical structure of drug substances and their interactions with carriers by measuring the absorbance of infrared light.[2] (3) A well-established technique used to evaluate interactions, particularly hydrogen bonding, in drug-polymer dispersions.[3] (4) A technique used to identify functional groups in compounds by measuring their absorption of infrared light.[4] (5) A technique used to analyze drug-excipient compatibility based on their spectral data.[5]

From: AYU (Journal of Research in Ayurveda)

(1) A method that measures the wavelengths of infrared light absorbed by a sample, useful for identifying functional groups in compounds.[6]

From: Journal of Indian Society of Periodontology

(1) A technique that analyzes the total content of GCF to differentiate between healthy and diseased tissue through molecular signatures.[7]

This section includes scientific research in the field of healthcare, often involving traditional medicine systems such as Ayurveda, Unani, Siddha and Holistic health. It includes papers from scientific journals classified as either original, clinical or experimental research, review articles or case reports.