Medicinal Chemistry, Drug synthesis methods and strategies, Innovation in organic asymmetry

Organic synthesis is a special branch of chemical synthesis and is concerned with the construction of organic compounds via organic reactions. Organic molecules often contain a higher level of complexity than purely inorganic compounds, so that the synthesis of organic compounds has developed into one of the most important branches of organic chemistry. There are several main areas of research within the general area of organic synthesis: total synthesis, semi synthesis, and methodology, Organic synthesis is a special branch of chemical synthesis and is concerned with the construction of organic compounds via organic reactions. Organic molecules often contain a higher level of complexity than purely compounds in inorganic bio chemistry, so that the synthesis of organic compounds has developed into one of the most important branches of organic chemistry. There are several main areas of research within the general area of organic synthesis: total synthesis, semi synthesis, and methodology, Electro synthesis in chemistry is the synthesis of chemical compounds in an electrochemical cell. The main advantage of electro synthesis over an ordinary redox reaction is avoidance of the potential wasteful other half-reaction and the ability to precisely tune the required potential. Electro chemical synthesis is actively studied as a science and also has many industrial applications of microbes. Organic material chemistry is to provide an overview of the relationships between molecular or solid state structures and material properties. This is an interdisciplinary course which aims to provide an understanding of how molecular structure affects the properties of materials. The course consists of three sections (synthesis, analysis and properties). The use of design rules and advanced characterisation methods in the development of modern materials will be highlighted.

In recent years research in the field of organic electrosynthesis has received considerable stimulation from the forecast that, with the advent of nuclear power, electricity will become cheaper compared to chemical oxidants and  reductants. Furthermore, the reasons for the failure of earlier workers to achieve selective reactions have become apparent and by controlling the electrode potential, the solution conditions  solvent, pH, concentration of species and by choice of suitable electrode materials, some measure of selectivity is now possible. It therefore seems likely that electrochemical techniques will have an increasing role in preparative organic chemistry, both in industry and in the laboratory as a standard method for oxidations and reductions as well as other Platinum MetalsTev, reactions such as substitutions and cyclisations.

  • New synthetic methods and advances in catalysis
  • Process development and structure, function and mechanism
  • Process development and non-precious metal catalysis
  • Enantioselective / chiral synthesis
  • Organic electrosynthesis and organic materials chemistry

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