Synthesis and Production of High Value Pyridines Combining the Concepts of Alternative Reaction Media and Process Intensification. This project aims to develop novel syntheses and process route for substituted pyridines by bringing together expertise in the fields of green chemistry and process intensification. Minimisation of waste, energy efficiency, and improved selectivity and control will be the key process and chemistry targets, which will produce high value compounds. Traditional approach ....Synthesis and Production of High Value Pyridines Combining the Concepts of Alternative Reaction Media and Process Intensification. This project aims to develop novel syntheses and process route for substituted pyridines by bringing together expertise in the fields of green chemistry and process intensification. Minimisation of waste, energy efficiency, and improved selectivity and control will be the key process and chemistry targets, which will produce high value compounds. Traditional approaches use organic solvents and preformed salts which are costly, generate waste and the processes are energy intensive due to poor selectivity, low yield and extensive separation steps. This is a generic investigation which will have wide ranging applications in the pharmaceutical, energy and advanced electronic industries.Read moreRead less
Application of process intensification on rotating surfaces (PIRS) in organic synthesis. Process intensification technologies in the form of SDP and RTP are new to Australia and present many opportunities for carrying out the synthesis of organic compounds. They have remarkable versatility in being able to control chemical reactions with greater selectivity than using classical batch technology, at the same time allowing access to new compounds. Moreover, the technologies embrace the principles ....Application of process intensification on rotating surfaces (PIRS) in organic synthesis. Process intensification technologies in the form of SDP and RTP are new to Australia and present many opportunities for carrying out the synthesis of organic compounds. They have remarkable versatility in being able to control chemical reactions with greater selectivity than using classical batch technology, at the same time allowing access to new compounds. Moreover, the technologies embrace the principles of green chemistry in minimising the generation of waste, while operating under continuous flow which is destined to be more attractive to industry. This is likely in the fine chemicals sector, and in drug discovery. The project will provide first-rate research training and promote Australian science. Read moreRead less