Organic Chemistry
Keywords:
Meta-C−H Bond Functionalization’s, Ru-catalyzed meta-C-H functionalization, Fluorescent Molecules and Dyes, Common Fluorescent Labels, Bioluminescence and Chemiluminescence, Fluorescent Dyes, Fluorescent Dyes and Brighteners, Fluorescent Dye Applications, Types of Organic Dyes, Biological Fluorophores, Asymmetric Synthesis, Solvent-free, Design, Synthesis and Characterization, Carbon-Carbon Bond Formation, Present Work, Sulfonamide, IR, NMR, regression analysis, effect of substituentSynopsis
Organic chemistry is the study of carbon-containing molecules' structure, characteristics, content, reactions, and production. The most common elements in organic compounds are carbon and hydrogen, although they can also contain a variety of other elements (e.g., nitrogen, oxygen, halogens, phosphorus, silicon, sulfur).
Organic chemistry was once limited to the study of molecules created by living organisms, but it has now expanded to encompass human-made substances (e.g., plastics).
Organic chemistry is a very creative science in which chemists are able to develop and investigate molecules and compounds. Organic chemists devote a significant amount of their work to the development of novel chemicals and the improvement of existing ones.
Organic substances can be found all over the place. Organic chemicals make up at least a portion of many modern materials. They're essential for economic development and are fundamental to biochemistry, biotechnology, and medicine. Organic compounds can be found in agrichemicals, coatings, cosmetics, detergent, dyestuff, food, fuel, petrochemicals, medicines, plastics, and rubber, to name a few.
Because the study of organic chemistry was initially limited to substances created by living creatures, the name "organic" was coined. This was attributed to some kind of 'vital power' that living substances possessed that inanimate substances lacked. When Urey Miller produced urea from inorganic chemicals, the aforementioned theory was refuted, although the classification is still in use.
Because of one essential feature shown by the atom carbon, called carbon catenation, organic chemistry is a huge subject. Carbon has a remarkable ability to make extremely stable bonds with other carbon atoms, allowing it to construct stable molecules with relatively complex structures. The ability of an element to create bonds with an atom of the same kind is known as catenation. As a result, this feature of carbon is responsible for the immensity of organic chemistry.
Chapters
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Meta-C−H Bond Functionalization’s in Organic Synthesis
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Fluorescent Molecules and Dyes
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Solvent-Free Asymmetric Synthesis: A Green Synthetic Approach for the Enantioselective Construction of Carbon-Carbon Bonds
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Design, Synthesis and Characterization of 6-((1- (3-Substitutedbenzyl)-1H-1, 2, 3-triazol-4-yl) methoxy)-2-phenyl-1H-benzo [de]isoquinoline-1, 3(2H)-dione Derivatives.
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Single and Multi-Regression Analysis of 2- Hydroxy-5-(Substitutedphenylsulfonamido) Benzoic Acids by Hammett Application
