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澳大利亚curtin大学化学系全奖博士生招生
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澳大利亚Curtin University 化学系Simone Ciampi课题组计划招表面化学或者电化学方向的博士生1到2名。学校位于美丽的西澳珀斯,环境优美。需要满足科廷大学的雅思(小项6,总分6.5)或者托福成绩(79),发表过2-3篇paper优先,专业背景符合(合成或电化学相关),对科研感兴趣的,能尽快进组的优先考虑,导师年轻有为,人非常nice。欢迎有科研梦想的师弟师妹加入我们的大家庭,有意向的可直接发简历到我邮箱 tiexin.li@postgrad.curtin.edu.au PhD project title: Making Electrosynthesis Water-Friendly Summary of Project: One of the technical and scientific challenges of the 21st century is to develop and deploy sustainable methods of using traditional carbon-based fuels, together with the rapidly increasing amount of new carbon-neutral electricity. The chemical industry is a major energy consumer, and one obvious solution towards efficiently integrating renewable electricity into chemical manufacturing is the electrification of industrial organic reactions, that is, replacing conventional molecular reactants with electricity. However, while there are several hundreds of known organic electro-synthetic processes, only a handful are implemented industrially. Examples of electrochemical organic syntheses that have progressed beyond the pilot plant stage are rare. The limited industrial success for organic electricity-driven reactions lies in the difficulty of finding reactions that proceed, with viable speed and selectivity, in the solvent of choice in industry: water. While on the one hand limited reaction viability in bulk water appears as a seemingly insurmountable technical task, on the other hand chemists are aware of the dramatic acceleration or reaction rates reported for several organic reactions when they occur at the water’s surface, instead of in bulk water. Our 2020 proof-of-concept of the corona of a surface bubble catalysing specific sets of redox reactions (hydroxide anions to hydroxyl radicals, and the stepwise radical polymerization of aniline analogues) has overturned the long-held assumption that surface-adherent gas cavities are redox-inactive, and defined a method to merge on-water catalysis and electro organic synthesis. |
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