The study and research of properties, reactions and the structure of organic materials and compounds is known as synthetic organic chemistry. A conclusive study will involve finding out the chemical compositions of organic materials or compounds to assess the chemical reactivity. The purpose of this study is so that researchers can be able to determine how organic matter behaves while in its:
- Natural form
- In solutions and mixtures
- Fabricated form
This extensive study stretches to look into the extent to which it reacts while used to prepare target compounds through synthetic organic chemistry, and the individual reactions of organic molecules on their own. Examples of target compounds are polymers, drugs natural products etc. This study requires both practical and theoretical research.
Synthetic organic chemistry study involves a wide range of research on both hydrocarbons and compositions made of other elements e.g. nitrogen sulfur-oxygen etc. Modern day chemistry is studied using periodic tables where group compositions are lined up. There has been a rise in the use of organometallics in the organic chemistry research.
Currently, research is being carried on to study lanthanides e.g. Palladium, nickel etc. It is important to note that life on earth depends on organic compounds and continuous research gets unveiled every day. For instance, there are different patterns of bonding that are compatible with carbon they are single, double and triple bonds. Combine this with electrons that have been delocalized and you get a diverse collection of organic compounds. Gauging by their variety, it is possible that they would have several compatible applications.
Sure enough, most products are based on these applications some of which include petrochemicals which produce solvents and lubricants, plastics, fuel etc. Pharmaceuticals also form a basis of this study. The study of synthetic organic chemistry covers a wide variety of material science.