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plastics and polymers. In our research group, we use depolymerization of polymers in flow reactors to convert plastics into their native monomers. Using flow chemistry allows to do so under relatively mild
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DRI processing and subsequent Electric Smelting Furnace (ESF) treatment. It will focus on three key aspects: analysing the chemistry and properties of the produced slag, examining the effects of flux
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industry and government agencies. To be successful you will need: A PhD in biochemistry, protein chemistry, molecular biology or related fields. Knowledge and skills in molecular biology, cloning
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DRI processing and subsequent Electric Smelting Furnace (ESF) treatment. It will focus on three key aspects: analysing the chemistry and properties of the produced slag, examining the effects of flux
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DRI processing and subsequent Electric Smelting Furnace (ESF) treatment. It will focus on three key aspects: analysing the chemistry and properties of the produced slag, examining the effects of flux
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exempt, subject to Taxation Office approval. Enquiries: Contact Person: Prof. Gregory Metha School/Discipline of: Physics, Chemistry and Earth Sciences Tel: (08) 8313 5943 Email: greg.metha
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This project will apply quantum chemistry and molecular dynamics simulations to the study of Hofmeister and specific ion effects in complex electrolytes, including non-aqueous solvents, deep
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complete any other CSIRO requirements. Ideally, the applicant will have: a bachelor’s degree in chemistry, chemical engineering, material science or engineering or relevant fields. Preference will be given
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exempt, subject to Taxation Office approval. Enquiries: Contact Person: Professor Simon Holford School/Discipline of: School of Physics, Chemistry and Earth Sciences; Discipline of Earth Sciences Tel: 08
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offers an excellent opportunity for a chemistry graduate with a passion for applied research, a willingness to learn and apply radiochemistry skills, and an interest in contributing to environmental