Significance of Chemical transformation
Chemical transformation refers to processes that alter the chemical structure of substances, which can occur in various contexts such as the synthesis of new compounds, drug metabolism, and the modification of toxicants into less harmful forms. It encompasses reactions that involve breaking and forming bonds, enabling the conversion of reactants into products. This concept is crucial in multiple applications, including enhancing traditional remedies and synthesizing novel compounds like quinoxalines and indole derivatives.
Synonyms: Chemical change, Chemical reaction, Chemical conversion, Chemical alteration, Chemical modification.
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
Hindu concept of 'Chemical transformation'
In Hinduism, chemical transformation, known as Paaka, signifies the digestive processes of food, encompassing both reversible and irreversible changes that contribute to nourishment and energy for the body.
From: Journal of Ayurveda and Integrated Medical Sciences
(1) This refers to the changes that food undergoes during the digestion process, both reversible and irreversible, and it is described by the term Paaka.[1]
From: International Research Journal of Ayurveda and Yoga
(1) This might have caused the loss of Aluminum (Al) during incineration.[2]
The concept of Chemical transformation in scientific sources
Chemical transformation is the process by which a prodrug changes at the molecular level, allowing it to convert into its active drug form, thus playing a crucial role in pharmacological effectiveness.
From: Sustainability Journal (MDPI)
(1) Changes in the chemical composition and structure of a substance, such as sugarcane bagasse, after pyrolysis and activation.[3] (2) It involves changes in the chemical composition and bonding within the material during thermal treatment, leading to decomposition and new compound formation.[4] (3) Scientific literature selectively presents Fe 0 as acting as catalysator to favor some of this, as well as a reducing agent, a generator of HO radicals, hydroxides and oxides, and H 2 for biological processes.[5] (4) These are processes that the material undergoes during aging, leading to variations in its physical characteristics and performance.[6] (5) These are a series of reactions that follow C-O bond cleavage, eventually mineralizing the compound into water and carbon dioxide.[7]
From: International Journal of Environmental Research and Public Health (MDPI)
(1) This is a mechanism used by microorganisms to resist heavy metal toxicity, involving altering the chemical form of the metal.[8] (2) The process of chemical transformations can produce secondary PM 2.5 and NO 2, affecting the concentrations of pollutants and decreasing both spatial and temporal correlation.[9] (3) This refers to the process by which chemicals are changed, and the modeled dispersion and transformation of particles depends on meteorology, chemical transformation, and aerosol processes.[10]
From: International Journal of Pharmacology
(1) These are transformations of oxyresveratrol into a potent tyrosinase inhibitor and a strong cytotoxic agent.[11]
From: Asian Journal of Pharmaceutics
(1) These such as hydrolysis, dehydration, isomerization and racemization, elimination and oxidation of the API, or interactions with excipients will reduce the bioavailablity.[12]
From: Onderstepoort Journal of Veterinary Research
(1) It refers to any changes in the chemical composition of the urine samples over time.[13]