Organic Chemistry: An Indian Journal
 

Organic Chemistry: An Indian Journal an open access, peer-reviewed journal that publishes articles on all facets of organic chemistry. The study of chemical compounds with at least one bond between a chemical compound's atom and a metal is known as organic chemistry. Research on topics like Bio-Organic Chemistry, Hydrocarbons, Metallo-Organic Compounds, Physical Chemistry, Drug Chemistry, Organic Reaction Mechanism, Stereo Chemistry, Organic Industrial Chemistry, Pharmaceutical Chemistry, Heterocyclic Chemistry, and Medicinal Chemistry is published in this journal.
 

Aims and Scope

An Indian journal that specializes in organic chemistry provides top-notch research on all its facets. Studies that present either novel or significantly improved methods or approaches and so significantly advance the discipline of organic chemistry are given special emphasis. Our magazine offers a successful platform for the publication of research articles, reviews, quick communications, urgent communications, and letters to the editor. 

Journal Highlights
 

• Bio-Organic Chemistry
• Hydrocarbons
• Metallo-Organic Compounds
• Physical Chemistry
• Stereo Chemistry
• Pharmaceutical Chemistry
• Heterocyclic Chemistry
   

Brief Introduction of Journal Highlights

1. Bio-Organic Chemistry: A branch of science known as bioorganic chemistry combines organic and biochemical principles. It is that area of life science that is concerned with investigating biological processes through the use of chemicals. Examples of these processes include the action of proteins and enzymes. Bioorganic chemistry is an organic chemistry that is concentrated on the biological aspects, but biochemistry is sometimes used synonymously with it. Bioorganic chemistry strives to extend organic-chemical sciences (that is, structures, synthesis, and kinetics) toward biology, whereas biochemistry aims to comprehend biological processes using chemistry. Bioorganic chemistry interacts with bioinorganic chemistry while studying metalloenzymes and cofactors.
    
2. Hydrocarbons: The majority of crude oil, refined petroleum hydrocarbons (such as gasoline, diesel, kerosene, fuel oil, and lubricating oil), coal tar, and creosote, dyestuff, and pyrolysis waste products are hydrocarbons, which are compounds made solely of carbon and hydrogen.
    
3. Metallo-Organic Compounds: are a group of chemical compounds with metals and organic ligands that provide them volatility or solubility in organic solvents. Materials science uses compounds with these characteristics for metal organic vapour deposition (MOCVD) or sol-gel processing. Metal-containing substances that lack direct metal-carbon bonds but nonetheless contain organic ligands are referred to as "metal organic compounds." Representatives of this class include metal -diketonates, alkoxides, dialkylamides, and metal phosphine complexes.
    
4. Physical Chemistry: It is the study of macroscopic and microscopic chemical events in relation to the laws, methods, and ideas of physics such as motion, energy, force, time, statistical mechanics, analytical dynamics, and chemical equilibria. Contrary to chemical physics, physical chemistry is mostly a supra-molecular science since most of the underlying concepts concern the bulk rather than just the molecule or atomic structure (for example, chemical equilibrium and colloids).
    
5. Stereo Chemistry:  The field of chemistry known as stereochemistry is concerned with "the study of the various spatial configurations of atoms in molecules." The methodical presentation of a particular area of science and technology, known as stereochemistry, typically necessitates a brief detour into the past. The investigation of chiral compounds is a significant area of stereochemistry. All areas of chemistry, including organic, inorganic, biological, physical, and particularly supramolecular, fall under the umbrella of stereochemistry. Methods for determining and defining these relationships, the impact these relationships have on the physical or biological properties of the molecules in issue, and how these relationships affect the reactivity of the molecules in question are all included in stereochemistry (dynamic stereochemistry).
     
6. Pharmaceutical Chemistry: The creation and synthesis of compounds having biological activity are the focus of pharmaceutical chemistry. The goal is to acquire new chemical molecules that could facilitate the discovery of novel medicines or optimize currently established drug structures, hence increasing the range of available chemical therapeutics. Although organic chemistry is important, only skilled pharmaceutical chemists can collaborate with scientists from other fields and effectively communicate with them, including those in molecular biology, structural biology, pharmacology, physical chemistry, biochemistry, pharmacokinetics, pharmaceutical technology, toxicology, and translational medicine.

Organic Chemistry: An Indian Journal is covering the topics like Bio-Organic Chemistry, Hydrocarbons, Metallo-Organic Compounds, Physical Chemistry, Drug Chemistry, Organic Reaction Mechanism, Stereo Chemistry, Organic industrial Chemistry, Pharmaceutical Chemistry, Heterocyclic Chemistry, Medicinal Chemistry in Journal’s scope and we are publishing the no of articles related to this highlights.

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