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PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
propagation Interfacing to array microfluidics Image analysis of biosensor response Sensor surface biofunctionalisation Optical communications High-speed signal analysis Modelling of optical propagation in
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of hydrogen migration through isotopic, noble gas and micro thermometric analyses of hydrogen-bearing inclusions. Eligibility: Applicants may include Australian citizens, permanent residents of Australia and
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. Moreover, ammonia stands out as the most cost-effective fuel option among hydrogen, gasoline, natural gas, and petroleum. The successful integration of ammonia-fuelled PCFCs will expedite PCFC deployment and
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micronutrient dense food can be produced whilst staying within planetary boundaries (e.g. greenhouse gas emissions). Aside from plant-based foods, various other alternatives to meat and dairy production have been
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Sustainable management of organic wastes is critical for greenhouse gas emissions reduction and circular resource recovery. Organics management via biological and thermal treatment can offer
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. Demonstrable experience advanced porous material synthesis and gas separation systems development essential. All applicants should email the following to Prof. Xavier Mulet via xavier.mulet2@rmit.edu.au: A cover
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lowered greenhouse gas emissions, while taking uncertainty into consideration. Using the high-visibility workwear industry as a case study, a guiding framework for circular economy decision-making in
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redox, dissolved gases, noble gases, and isotopes, will be coupled with water–rock interaction experiments. Laboratory tests will investigate the effects of temperature, salinity, and mineralogy on gas
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to various projects. Australian Energy Market Operator (AEMO) manages the electricity and gas systems and markets across Australia, helping to ensure Australians have access to affordable, secure and reliable
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focuses on developing the first-ever closed-loop cardiopulmonary resuscitation (CPR) feedback device. The device uses non-invasive sensors to measure blood oxygenation in the brain and tells the CPR